JP3604759B2 - Image processing system and image processing apparatus and method - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to an image processing system, an image processing apparatus, and a method thereof, and more particularly, to an image processing system, an image processing apparatus, and a method capable of processing an original in which a color original and a monochromatic original are mixed.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an image processing apparatus and an image forming apparatus are included as components thereof, and image data and character data are received by the image processing apparatus to perform image processing, and an image is formed by the image forming apparatus. 2. Description of the Related Art An image processing system capable of forming an image by reading with an apparatus has been widely used.
[0003]
In such an image processing system, the image forming apparatus is generally an electrophotographic printer, and forms an image by performing an electrophotographic process such as charging, developing, and fixing. In particular, when forming a color image, the image is formed using a color image forming apparatus that performs a four-color process of cyan (C), magenta (M), yellow (Y), and black (K). On the other hand, when forming a black and white image, the image is formed using a black and white image forming apparatus that performs only the black process. Of course, if only the black process is performed in the color image forming apparatus, a black and white image can be formed.
[0004]
In a conventional image processing system, it is possible to arbitrarily form a color image and a black and white image by using such an electrophotographic printer.
[0005]
[Problems to be solved by the invention]
However, in the electrophotographic image forming apparatus used in the conventional image processing system, when processing a plurality of originals in which a color original and a black-and-white original are mixed by the image forming apparatus itself, the color image forming apparatus is It is necessary to perform a color image reading process and a color image forming process on the plurality of originals.
[0006]
In general, when a black-and-white image is formed using a color image forming apparatus, the forming cost per formed image is higher than when a black-and-white image is formed using a black-and-white image forming apparatus. This is due to the complicated mechanism of the four-color process in the color image forming apparatus, an advanced image processing circuit, the use of pigments and image forming papers that emphasize color reproducibility, and image quality maintenance adjustment. Further, for the same reason, the formation speed of the black-and-white image in the color image forming apparatus is lower than the formation speed of the black-and-white image forming apparatus.
[0007]
Therefore, in the case where even a small number of color originals are inserted among a plurality of black and white originals, it is necessary to perform image reading and image forming processing using a color image forming apparatus on all the originals, There is a problem that unnecessary costs are generated. Similarly, there is a problem that the time required for image formation is also long.
[0008]
On the other hand, in order to reduce unnecessary costs in image formation as described above, it is conceivable to use a monochrome image forming apparatus and a color image forming apparatus together. In this case, the operator first classifies the color original and the black-and-white original, forms an image using the color image forming apparatus and the black-and-white image forming apparatus individually, and outputs the image on each recording sheet after the formation. It is necessary for the operator to rearrange the color image and the black and white image in the same order as the original, and there is a problem in operability. In addition, since this method depends on the manual operation of the operator, the time required for comprehensive image formation is not reduced, and the time is rather reduced depending on the amount of originals. At the same time, there was always the possibility that mistakes such as changing the order when rearranging the recording paper would occur.
The present invention has been made in order to solve the above-described problem, and it is possible to copy a document composed of a plurality of pages in which color pages and black-and-white pages are mixed at a lower cost, more reliably, and at a higher speed. It is an object to provide an image processing system, an image processing apparatus, and a method thereof.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, an image processing apparatus according to the present invention has the following configuration.
[0010]
That is, input means for inputting image data of a plurality of pages, storage means for storing image forming mode information of the image data of the plurality of pages input by the input means in a page order, An image forming unit for forming image data in a predetermined image forming mode out of image data on a recording medium, a storage unit for storing a recording medium formed by the image forming unit, and an input from the input unit. Paper feeding means for feeding a recording medium in which image data in an image forming mode other than the predetermined image forming mode out of the plurality of pages of image data is formed by an external device, and the image stored in the storage means With reference to the formation mode information, the recording medium corresponding to the page having the predetermined image formation mode is stored in the storage means from the storage means and corresponding to the page having the other image formation mode. That the recording medium respectively fed from the paper feeding means, and having a discharge means for discharging the page order.
[0011]
For example, the predetermined image forming mode is a mode indicating color image formation.
[0012]
For example, the predetermined image forming mode is a mode indicating monochromatic image formation.
[0014]
For example, the input means inputs image data by optically scanning and reading a document image.
[0015]
For example, the input means inputs by receiving image data from an external device.
[0016]
In order to achieve the above object, an image processing system according to the present invention has the following configuration.
[0017]
That is, an image processing system including a first image forming apparatus and a second image forming apparatus as components, wherein the first image forming apparatus comprises: an input unit for inputting image data of a plurality of pages; Means for storing the image forming mode information of the image data of a plurality of pages input in the order of pages, and storing the image data in a predetermined image forming mode in the image data of the plurality of pages input by the input means in a recording medium A first image forming unit to be formed thereon, a storage unit for storing a recording medium formed by the first image forming unit, and a plurality of image data of a plurality of pages input by the input unit. A first communication unit that transmits image data of a page having an image forming mode other than the image forming mode to the second image forming apparatus; and a recording unit that forms an image by the second image forming apparatus. A sheet feeding unit for feeding a medium, and referring to the image forming mode information stored in the storage unit, a recording medium corresponding to a page having the predetermined image forming mode is stored in the storage unit. A first discharging unit that feeds a recording medium corresponding to a page having an image forming mode from the paper feeding unit and discharges the recording medium in the order of pages, wherein the second image forming apparatus is configured to perform the first image forming operation. A second communication unit for receiving the image data transmitted by the communication unit, a second image forming unit for forming the image data received by the second communication unit on a recording medium, and the second image forming unit And a second discharging means for discharging the recording medium on which the image is formed by the means to the first image forming apparatus.
[0018]
For example, the first input means inputs by receiving image data from an external device.
[0019]
The image processing apparatus further includes a second input unit configured to input image data of a plurality of pages described in a page description language from an external device, the image processing apparatus including an image processing apparatus. The image processing apparatus further includes a developing unit that expands the data into raster image data, and a third communication unit that transmits the raster image data to the first image forming apparatus.
[0020]
In order to achieve the above object, an image processing method according to the present invention includes the following steps.
[0021]
That is, an input step of inputting image data of a plurality of pages, a storing step of storing image forming mode information of the image data of the plurality of pages input in the input step in a page order, In the image data, an image forming step of forming image data in a predetermined image forming mode on a recording medium, a storing step of storing the recording medium formed in the image forming step in a storage unit, and A sheet feeding step of feeding a recording medium on which image data in an image forming mode other than a predetermined image forming mode is formed among the input plurality of pages of image data, and the image forming step stored in the storing step Referring to the mode information, for the page having the predetermined image forming mode, the recording medium stored in the storing step is replaced with another image type. For pages with mode respectively sheet feed a recording medium which is fed in the feeding step, and having a discharge step of discharging the page order.
[0024]
[Action]
According to the above configuration, based on the attributes of the image data of a plurality of pages input from the first input means, for the pages having the predetermined attribute, after forming the image on the recording medium, the recording medium is moved to the predetermined position. For a page having an attribute other than the above attribute, a specific operation and effect can be obtained in that the recording medium input from the second input unit can be discharged in the order of pages.
[0025]
【Example】
Hereinafter, an embodiment according to the present invention will be described in detail with reference to the drawings.
[0026]
<First embodiment>
FIG. 1 shows a configuration of an image processing system according to the present embodiment. As shown in FIG. 1, the image processing system of the present embodiment includes a first printer 100 and a second printer 200 as image forming apparatuses. Reference numeral 400 denotes an interface cable, and reference numerals 124 and 224 denote connectors, which will be described in detail with reference to FIGS.
[0027]
FIG. 2 is a block diagram showing a detailed configuration of the first printer 100 shown in FIG. In FIG. 2, reference numeral 110 denotes an operation unit for inputting various settings necessary for the operation of the first printer 100 and / or input various operation instructions to the control unit 114; A display unit configured to display and output necessary characters, images, sounds, and the like in accordance with the execution of the control program and configured by an LCD (Liquid Crystal Display), a speaker, and the like. A control unit 114 controls the entire first printer 100, and a storage unit 116 includes a ROM, a RAM, and the like for storing a control program for operating the control unit 114, variables, and the like. A mixed mode table 123 for controlling a mixed sort process according to the present embodiment, which will be described later, is provided in a predetermined area configured by a RAM in the storage unit 116. Details of the mixed mode table 123 will be described later. Reference numeral 118 denotes an image memory which includes a RAM and stores one or a plurality of image data. The image data is supplied from the reading unit 120 or another printer or an external device via the connector 124 and the interface 122 and stored in the image memory 118.
[0028]
Reference numeral 120 denotes a reading unit which converts an image forming object such as a document into an electric signal by an image pickup device such as a CCD, and includes a scanner, a camera, and the like. The reading unit 120 is capable of full-color reading, and is composed of, for example, an image sensor of three colors, R, G, and B, so that color reading for color copying and black-and-white reading for black-and-white copying can be performed. Both are possible. An interface 122 controls transmission and reception of control signals and image data with other printers and external devices, and a connector 124 connects the interface 122 with the external devices. Reference numeral 125 denotes a timer for measuring a predetermined time.
[0029]
Reference numeral 130 denotes a paper feeding unit that supplies recording paper of various materials and shapes mounted in advance to the image forming unit 132 in accordance with the operation thereof. 132 converts an image signal sent directly from the image reading unit 120 or in a predetermined data format from the image memory 118 into a color signal suitable for image formation, and synchronizes with the feeding of the recording paper to produce various types of signals. An image forming unit that forms characters and images on recording paper of a material. The image forming section 132 is capable of forming a full-color image, and includes, for example, a developing unit using an electrophotographic system of four colors of Y, M, C, and K. Thus, both color image formation for color copy and monochrome image formation for black-and-white copy are possible. Reference numeral 134 denotes a paper discharge unit for classifying and discharging the recording paper on which an image has been formed by the image forming unit 132 in a format designated by the operation unit 110, and 136 denotes a recording paper on which an image has been formed by the image forming unit 132. A storage unit 138 for temporarily storing, for example, an internal tray or the like is an external paper supply unit that supplies various types of materials and shapes of recording paper from the outside of the first printer 100 to the image forming unit 132.
[0030]
Reference numeral 150 denotes a document supply unit for sequentially supplying one or more attached documents to a predetermined image reading position of the reading unit 120.
[0031]
Next, FIG. 3 is a block diagram showing a detailed configuration of the second printer 200 shown in FIG. In FIG. 3, reference numeral 210 denotes an operation unit for inputting various settings necessary for the operation of the second printer 200 and / or input various operation instructions to the control unit 214; A display unit configured to display and output necessary characters, images, sounds, and the like in accordance with the execution of the control program and configured by an LCD (Liquid Crystal Display), a speaker, and the like. A control unit 214 controls the entire second printer 200, and a storage unit 216 includes a ROM and a RAM that store a control program for operating the control unit 214, variables, and the like. An image memory 218 is configured by a RAM and stores one or a plurality of image data. The image data is supplied from the reading unit 220 or another printer or an external device via the connector 224 and the interface 222 and stored in the image memory 218.
[0032]
A reading unit 220 converts an image forming object such as a document into an electric signal by an image pickup device such as a CCD, and is configured by a scanner, a camera, and the like. The reading unit 220 is capable of reading black and white, and is composed of, for example, a monochrome image sensor. Thereby, monochrome reading for monochrome copying is possible. An interface 222 controls transmission and reception of control signals and image data with other printers and external devices, and a connector 224 connects the interface 222 and the external device.
[0033]
Reference numeral 230 denotes a paper feeding unit that supplies recording paper of various materials and shapes mounted in advance to the image forming unit 232 in accordance with the operation thereof. 232 converts an image signal sent directly from the image reading unit 220 or in a predetermined data format from the image memory 218 into a color signal suitable for image formation, and synchronizes with various kinds of recording paper to supply various types of color signals. An image forming unit that forms characters and images on recording paper of a material. The image forming unit 232 can form a black and white image, and includes, for example, an electrophotographic developing device using black toner as a component. As a result, a monochrome image can be formed for monochrome copying. Reference numeral 234 denotes a paper discharge unit that discharges recording paper on which an image has been formed by the image forming unit 232 in a format designated by the operation unit 210.
[0034]
In the present embodiment, the recording paper on which a black-and-white image has been formed in the second printer 200 is placed on the external paper feeding unit 138 of the first printer, and the first printer 100 stores the color image formed on the storage unit 136. And the recording paper with the black and white image formed thereon, which is placed on the external paper supply unit 138, is discharged in a predetermined order. Details of this mixed processing will be described later.
[0035]
FIG. 13 is a diagram illustrating the appearance of the operation unit 110 and the display unit 112 in the first printer 100. In FIG. 13, a display unit 112 is configured by an LCD, and displays an operation state of the first printer 100, an instruction to an operator, and the like. Reference numeral 1302 denotes a mixed mode switch, which indicates that the operator performs mixed processing in the present embodiment. Reference numeral 1303 denotes a start switch for instructing the start of processing, 1304 denotes a reset switch for setting all settings to default values, 1301 denotes a stop switch for instructing to interrupt processing, and 1305 denotes a tray for selecting a tray storing a recording medium of a predetermined size. A selection key 1306 is a density key for adjusting the image forming density, a numeral 1307 is a ten key for designating the number of copies, and the like, and a numeral 1308 is a paper discharge switch for instructing forcible discharge of the recording medium being processed. The appearance of the operation unit 210 in the second printer 200 is almost the same as that in FIG.
[0036]
Hereinafter, the image forming process in the present embodiment will be described with reference to the flowcharts of FIGS. The processes shown in the flowcharts of FIGS. 4 to 7 are stored in the storage unit 116 of the first printer 100 or the storage unit 216 of the second printer 200 as a control program. Data signals and control signals are exchanged between the control unit 114 of the first printer 100 and the control unit 214 of the second printer 200 via the interface 122, the connector 124, the interface cable 400, the connector 224, and the interface 222. Shall be performed.
[0037]
4, first, when the power of the first printer 100 is turned on, the control unit 114 initializes flags, control variables, and the like, and executes a control program such as an operating system stored in a part of the area of the storage unit 116. Then, each unit of the first printer 100 is initialized (step S1).
[0038]
In the second printer 200, when the power is turned on, the control unit 214 initializes flags, control variables, and the like, executes the control program stored in a part of the area of the storage unit 216, and executes the control of the second printer 200. Initialize each part.
[0039]
When a main switch (not shown) included in the operation unit 110 is turned on (step S2), the control unit 114 performs predetermined display on the display unit 112 using images such as characters, numbers, icons, and the like. Allow input. If there is any input to the operation unit 110 (step S3) and the mixed mode switch 1302 is on (step S4), the control unit 114 sets the mixed mode set in the storage unit 116 or the internal memory of the control unit 114. The flag is set, and the mixed mode table 123 of the predetermined area is set (step S5).
[0040]
Subsequently, the control unit 114 sets the display content of the display unit 112 to the mixed mode display as shown in FIG. 13, for example, and also sets the display content of the display unit 212 to the display corresponding to the mixed mode via the control unit 214. (Step S6). The mixed mode display on the display unit 212 is the same as the display on the display unit 112.
[0041]
With this mixed mode display, the operator of the first printer 100 and the second printer 200 can proceed with the operation in the mixed mode according to each display content. Here, the mixed mode is a processing mode for copying a plurality of originals in which a full-color original and a black-and-white original are mixed. In the mixed mode, first, the mixed originals are sequentially read by the first printer 100. The first printer 100 forms an image of a full-color original. On the other hand, the second printer 200 forms an image of a monochrome document. Then, the recording paper formed and stored or discharged by each printer is arranged by the first printer 100 in the order of the original document, thereby completing the copying process.
[0042]
If the mixed mode switch 1302 is off (step S4), the control unit 114 resets the mixed flag set in the storage unit 116 or the internal memory of the control unit 114 and cancels the setting of the mixed mode table 123. (Step S7). Then, the control unit 114 sets the display content of the display unit 112 to the normal mode display, and sets the display content of the display unit 212 to the normal mode display via the control unit 214 (step S8).
[0043]
Then, when the start switch 1303 included in the operation unit 110 is turned on (step S9), the control unit 114 reads the mixed flag set in the storage unit 116 or the internal memory of the control unit 114 and reads the mixed flag. If the flag is off (step S10), the control unit 114 performs a normal copy process (step S11). According to the normal copy processing, a plurality of originals are sequentially read by the first printer 100, and the first printer 100 sequentially forms images. That is, in this case, image formation by the second printer 200 is not performed.
[0044]
On the other hand, if the mixed flag is on (step S10), the control unit 114 performs mixed copy processing (step S12). According to the mixed copy process, a plurality of originals in which a color original and a black-and-white original are mixed are sequentially read by the first printer 100, and an image of the color original is formed by the first printer 100, while an image of the black-and-white original is formed. The recording paper formed by each image forming unit can be stored or discharged so as to be performed by the second printer 200 and suitable for processing in the mixed sorting (step S15) described later. The details of the mixed copy process in step S12 will be described later.
[0045]
After the mixed copy process in step S12, the control unit 114 causes the display unit 112 to display an instruction to the operator of the first printer 100 and the second printer 200 indicating the next procedure to be performed by the operator (step S12). S13). Then, the operators of the first printer 100 and the second printer 200 take out the recording paper output to the paper output unit 234 of the second printer 200 in accordance with the instruction display, and make the first printer 100 not disturb the order of the paper output. After the external printer 100 is attached to the external paper feeding unit 138 of the first printer 100, the start switch 1303 on the operation unit 110 of the first printer 100 is pressed (step S14).
[0046]
If the start switch 1303 on the operation unit 110 is turned on in step S14, the control unit 114 performs the mixed sorting process (step S15). According to the mixed sorting process, the recording paper formed and stored or discharged by the first printer 100 and the second printer 200 can be aligned by the first printer 100 in the original document order. The details of this mixed sorting process will be described later.
[0047]
Then, when the mixed sorting process in step S15 is completed, the process returns to step S2.
[0048]
On the other hand, if the stop switch 1301 included in the operation unit 110 is turned on while the start switch 1303 remains off in step S14 (step S16), the control unit 114 performs a stop process (step S17). According to the canceling process, it is possible to cancel the mixed sorting process in step S15 and perform a returning process such as discharging the stored recording paper. Details of this suspension processing will be described later.
[0049]
Then, when the stop processing in step S17 is completed, the processing returns to step S2.
[0050]
Hereinafter, the mixed copy processing shown in step S12 will be described in detail with reference to the flowchart of FIG.
[0051]
In FIG. 5, first, the control unit 114 performs a predetermined initialization process required for the first printer 100 to start the image reading process and the image forming process, and initializes the control unit 214 of the second printer 200. Request for conversion processing. Then, the control unit 214 performs a predetermined initialization process necessary for the second printer 200 to start the image forming process (Step S21). According to this initialization process, the original supply unit 150, the paper supply unit 130, the image forming unit 132, the paper discharge unit 134, the storage unit 136, and the external paper supply unit 138 are provided to the first printer 100 in order to perform the mixed copy process. And the like, whether or not each of these components has the necessary functions, and whether or not each of these components is in a normally operable state. The storage unit necessary for the operation of each of these components can be set, and the operation can be started. Whether or not the second printer 200 has a paper feeding unit 230, an image forming unit 232, a paper discharging unit 234, and the like, whether or not each of these components has necessary functions, It is possible to confirm whether or not each of the components is in a normally operable state, and to set a storage unit necessary for the operation of each of the components to bring the device into an operation start state. Then, control unit 214 notifies control unit 114 of these confirmation results.
[0052]
The control unit 114 determines the result of the confirmation in the initialization processing of step S21 (step S22). If there is a problem in starting the mixed copy processing, the display unit 112 displays a warning or instruction by sound or video on the display unit 112. At the same time, the control unit 214 is requested to perform a warning process only on necessary items on the display unit 212 of the second printer 200. The control unit 214 causes the display unit 212 to display a warning or instruction using music or video only for the items requested by the control unit 114 (step S40).
[0053]
The control unit 114 performs a predetermined end process required in each unit of the first printer 100 and requests the control unit 214 for the end process. The control unit 214 executes the predetermined end process in each unit of the second printer 200. Perform (step S37). Then, when the termination processing of step S37 is completed, the mixed copy processing (step S12) shown in FIG. 4 is terminated.
[0054]
On the other hand, if there is no problem in starting the mixed copy processing in step S22 (step S22), the control unit 114 determines whether or not the original is correctly mounted on the original feeding unit 150 (step S23). If the original is not correctly mounted, a warning or instruction is displayed on the display unit 112 using audio or video (step S38). Then, the processes of steps S22, S23, S38, and S39 are repeated until the stop switch 1301 included in the operation unit 110 is turned on.
[0055]
If the stop switch included in the operation unit 110 is turned on (Step S39) while the original is not properly loaded in the original supply unit 150, the process proceeds to Step S40 to perform the above-described warning process, and terminates the process in Step S37. By doing so, the mixed copy processing in step S12 shown in FIG. 4 is completed.
[0056]
On the other hand, if the original is correctly mounted on the original supply unit 150 (step S23), one of the mounted single or plural originals to be supplied next is read by the reading unit 120 as a predetermined image. The document is supplied to the reading position (step S24), and the reading unit 120 performs prescan reading of the supplied document (step S25). Then, as a result of the prescan reading, if it is determined that the original is a color original (step S26), the control unit 114 sends the original to the predetermined address of the mixed mode table 123 set in the mixed mode setting process (step S5) of FIG. Then, mode data indicating the color mode is written (step S27).
[0057]
Here, an example of data of the mixed mode table 123 is shown in FIG. The mixed mode table stores image forming mode information for each page when a page to be formed with a color image and a page that can be formed as a black and white image are mixed in a plurality of pages to be printed out. It is a table to put. In FIG. 12, if the value indicated by “mode” for each page is “0”, monochrome image formation is indicated, and if “1”, color image formation is indicated. In other words, it indicates that color images are to be formed on the third and seventh pages. In the mixed mode table 123, if the value of "mode" is "0", color image formation may be indicated, and if "1", monochrome image formation may be indicated.
[0058]
After writing the mixed mode table, the first printer 100 performs a color reading process and a color image forming process (step S28), and stores the recording paper formed by the image forming unit 132 in the storage unit 136 (step S29). .
[0059]
Here, the color reading process and the color image forming process in step S28 will be described in detail.
[0060]
The control unit 114 reads the image of the document supplied by the reading unit 120 and writes the read color image data into the image memory 118. The control unit 114 reads color image data from the image memory 118 in synchronization with the feeding of the recording sheet sent from the sheet feeding unit 130, and outputs color signals suitable for image formation, for example, C, M, Y, The image data is converted into four colors of K, and characters and images are formed in color on recording paper of various materials by the image forming unit 132. In this manner, in this embodiment, the color reading process and the color image forming process are performed.
[0061]
Returning to FIG. 5, if the result of the prescan reading is that the document is a black and white document (step S26), the control unit 114 sets the predetermined value in the mixed mode table 123 set in the mixed mode setting process (step S5) in FIG. The data indicating the monochrome mode is written to the address (step S30). Thereafter, the black-and-white reading process is performed by the first printer 100, and the black-and-white image forming process is performed by the second printer 200 (step S31). Then, the recording sheet on which the image is formed by the image forming unit 232 is discharged to the paper discharge unit 234 (Step S32).
[0062]
Here, the monochrome reading process and the monochrome image forming process in step S31 will be described in detail.
[0063]
The control unit 114 reads the image of the document supplied by the reading unit 120 and writes the read monochrome image data into the image memory 118. After setting the data transfer procedure through communication with the control unit 214, the control unit 114 reads the monochrome image data from the image memory 118, and outputs the image data via the interface 122, the connector 124, the interface cable 400, the connector 224, and the interface 222. Write to memory 218.
[0064]
The control unit 114 requests the control unit 214 to perform an image forming process. The control unit 214 reads black-and-white image data from the image memory 218 in synchronization with the feeding of the recording paper sent from the supply unit 230, and prints characters and images on various types of recording paper by the image forming unit 232. Formed by In this manner, in this embodiment, the monochrome reading process and the monochrome image forming process are performed.
[0065]
When the storage processing in step S29 or the paper discharge processing in step S32 is completed, the control unit 114 determines whether the color image has been formed normally and the recording paper has been stored in the storage unit 136, or It is determined whether the recording paper has been discharged to the paper discharge unit 234 after the image formation has been performed (step S33). If the storing process or the sheet discharging process is not normally performed, the process proceeds to step S40, performs the above-described warning process, and performs the end process of step S37, thereby performing the mixed copy process illustrated in FIG. 4 (step S12). To end.
[0066]
On the other hand, when it is determined that the color image formation has been normally performed and the recording paper has been stored in the storage unit 136, or that the recording paper has been normally formed and the recording paper has been discharged to the paper discharge unit 234 (step S33) If the next document to be supplied to the reading unit 120 is in the document feeding unit 150 (step S34), the control unit 114 advances the mixed mode table 123 to the next address (step S35), and the display unit 112 The display is updated as needed (S36). Then, the process returns to step S24, and the series of processes described above is repeated.
[0067]
If the next document to be supplied to the reading unit 120 is not in the document supply unit 150 (step S34), the process proceeds to step S37 to perform the above-described termination process, thereby terminating the mixed copy process (step S12) shown in FIG. I do.
[0068]
Hereinafter, the mixed sort processing shown in step S15 of FIG. 4 will be described in detail with reference to the flowchart of FIG.
[0069]
First, the control unit 114 performs a predetermined initialization process required for the first printer 100 to start the mixed sorting process, and requests the control unit 214 for the initialization process. The control unit 214 performs a predetermined initialization process necessary for the second printer 200 to start a process related to the mixed sorting process (step S51). According to this initialization process, in order to perform the mixed sort process, it is determined whether or not the paper discharge unit 134, the storage unit 136, the external paper feed unit 138, and the like of the first printer 100 are present. Check whether the necessary functions are provided, and whether each of these components is in a normally operable state, etc., and make various settings necessary for the operation of each of these components. The operation can be started. Further, the control unit 214 notifies the control unit 114 of the confirmation result of the initialization setting.
[0070]
The control unit 114 determines the result of the confirmation in the initialization processing of step S51 (step S52). If there is a problem in starting the mixed sorting processing, the display unit 112 displays a warning or an instruction using sound or video on the display unit 112. At the same time, the control unit 214 is requested to perform a warning process only on necessary items on the display unit 212 of the second printer 200. The control unit 214 causes the display unit 212 to display a warning or instruction by voice or video only for the item requested by the control unit 114 (step S65). Then, the control unit 114 performs a predetermined end process in each unit of the first printer 100 and requests the control unit 214 for the end process. The control unit 214 performs a predetermined end process in each unit of the second printer 200. Is performed (step S62). Then, when the termination processing of step S62 is completed, the mixed sort processing (step S15) shown in FIG. 4 is terminated.
[0071]
If there is no problem in starting the mixed sorting process (step S52), the control unit 114 forms a black-and-white image by the image forming unit 232 of the second printer 200, and outputs the recording paper discharged by the paper discharging unit 234 to the recording paper. It is determined whether the printer is properly mounted on the external paper feeding unit 138 of the first printer 100 (step S53). If the recording paper is not properly loaded, a warning or instruction is displayed on the display unit 112 using audio or video (step S63). Then, the processes of steps S52, 53, 63, and 64 are repeated until the stop switch 1301 included in the operation unit 110 is turned on (step S64).
[0072]
If the stop switch 1301 included in the operation unit 110 is turned on (step S64) while the recording paper is not properly loaded in the external paper supply unit 138, the process proceeds to step S65 to perform the above-described warning process, and then proceeds to step S65. By performing the end processing of S62, the mixed sort processing (step S15) shown in FIG. 4 is ended.
[0073]
If the recording paper on which the black-and-white image is formed is correctly mounted on the external paper feeding unit 138 of the first printer 100 (step S53), the control unit 214 performs the mixed mode setting process (step S5) shown in FIG. A predetermined address of the mixed mode table 123 which is set and similarly written in the mixed copy process (step S12) according to the determination result of the color / monochrome original is read (step S54), and the written determination data is It is determined whether the mode is the monochrome mode (step S55).
[0074]
If the data written in the predetermined address of the mixed mode table 123 is in the color mode (step S55), the control unit 114 forms the color image stored in step S29 of the mixed copy process shown in FIG. The recording paper is taken out of the storage unit 136 and discharged to the paper discharge unit 134 (Step S56).
[0075]
On the other hand, if the data written at the predetermined address of the mixed mode table 123 is in the monochrome mode (step S55), the data is discharged to the paper output unit 234 in step S32 of the mixed copy process shown in FIG. The recording sheet on which the black and white image is correctly mounted in the document feeding section 150 in the above-described step S53 is fed from the external feeding section 138, and is discharged to the discharge section 134 (step S57).
[0076]
When the storage / discharge processing (step S56) or the external paper supply / discharge processing (step S57) is completed, the control unit 114 determines whether the recording sheet of the color image has been normally discharged to the discharge unit 134. Alternatively, it is determined whether the recording sheet of the black-and-white image has been normally discharged to the paper discharge unit 234 (step S58). If the recording sheet has not been normally processed, the process proceeds to step S65 to execute the above-described warning process. Then, by performing termination processing in step S62, the mixed sort processing (S15) shown in FIG. 4 is terminated.
[0077]
On the other hand, when it is determined that the recording sheet of the color image has been normally discharged to the paper discharge unit 134 or that the recording sheet of the black and white image has been normally discharged to the paper discharge unit 234 (step S58), the next discharge is performed. If the recording paper is in the storage unit 136 or the external paper supply unit 138 (step S59), the control unit 114 advances the mixed mode table 123 to the next address (step S60), and the display by the display unit 112 is required. It is updated accordingly (step S61). Then, the process returns to step S54 to repeat a series of processing.
[0078]
On the other hand, if the recording paper to be discharged next is not in the storage unit 136 or the external paper supply unit 138 (step S59), the process proceeds to step S62 to perform the above-described end process, thereby performing the mixed sort process (FIG. 4). S15) ends.
[0079]
Hereinafter, the stop processing shown in step S17 of FIG. 4 will be described in detail with reference to the flowchart of FIG.
[0080]
First, the control unit 114 performs a predetermined initialization process necessary for the first printer 100 to stop the mixed sorting process (step S71). When the stop switch 1301 included in the operation unit 110 is turned on in S16 of FIG. 4, the control unit 114 causes the display unit 112 to display a warning or instruction by voice or video (step S72). The process of displaying a warning or instruction in step S72 is performed until the discharge switch 1308 included in the operation unit 110 is turned on (step S73) or a predetermined time is elapsed by the timer 125 (step S77).
[0081]
If a predetermined time has elapsed without the paper discharge switch 1308 included in the operation unit 110 being turned on (step S73) (step S77), the control unit 114 performs a predetermined end process in each unit of the first printer 100. (Step S76). When the termination processing of step S76 is completed, the termination processing (step S17) shown in FIG. 4 is terminated.
[0082]
On the other hand, if the paper discharge switch 1308 included in the operation unit 110 is turned on (step S73), the control unit 114 takes out the recording paper from the storage unit 136 and discharges it to the paper discharge unit 134 (step S74). Then, the control unit 114 repeats the discharging process of step S74 until there is no more recording paper stored in the storage unit 136 (step S75).
[0083]
When the recording paper stored in the storage unit 136 runs out (step S75), the control unit 114 performs a predetermined end process in each unit of the first printer 100 (step S76). Then, when the termination processing of step S76 is completed, the termination processing (step S17) shown in FIG. 4 is terminated.
[0084]
As described above, according to the present embodiment, color mode information for each page is stored for a multi-page document in which color pages and black-and-white pages are mixed, and the color page is stored in the first printer suitable for color image formation. The black-and-white pages are image-formed by a second printer suitable for black-and-white image formation, and the recording sheets on which the images have been formed are rearranged based on the color mode information, so that mixed originals can be copied at low cost. Moreover, it can be obtained at high speed and reliably.
[0085]
<Second embodiment>
Hereinafter, a second embodiment according to the present invention will be described.
[0086]
FIG. 8 shows the configuration of the image processing system according to the second embodiment. The image processing system according to the second embodiment includes a first printer 100 and a second printer 200 as image forming apparatuses as in the first embodiment. Reference numeral 300 denotes an image processing apparatus, 324 and 328 denote its connectors, and 402 and 404 denote interface cables for connecting the connectors 324 and 328 of the image processing apparatus 300 to the first and second printers 100 and 200. Reference numeral 500 denotes an external device such as a host computer that transmits and receives image data to and from the image processing device 300.
[0087]
The detailed configuration of the first and second printers 100 and 200 and the external appearance of the operation units 110 and 210 in the second embodiment are the same as those in FIGS. 2, 3 and 13 shown in the first embodiment. The description is omitted.
[0088]
FIG. 9 is a block diagram showing a detailed configuration of the image processing device 300 shown in FIG. In FIG. 9, reference numeral 310 denotes an operation unit for inputting various settings necessary for the operation of the image processing apparatus 300 and / or various operation instructions to the control unit 314. Reference numeral 312 denotes a control unit 314. A display unit configured to display and output necessary characters, images, sounds, and the like in accordance with the execution of the program and configured by an LCD (Liquid Crystal Display), a speaker, and the like. A control unit 314 controls the entire image processing apparatus 300. A storage unit 316 stores a program for operating the control unit 314, variables, and the like, and includes a ROM and a RAM. The storage unit 316 may store and temporarily store image data and / or data in a page description language (PDL) using the partial area. Note that the storage unit 316 has been described as a configuration in which an area for programs, variables, and the like and an area for image data and / or PDL are shared. Absent.
[0089]
An image memory 318 is configured by a RAM and stores one or a plurality of image data. The image data is supplied from an external device such as the host computer 500 or a communication line via the communication unit 330 or from the recording unit 320, and is stored in the image memory 318. Further, the image data is also supplied from the reading unit 120 of the first printer 100 via the interface 122, the connector 124, the connector 324, and the interface 322, and is stored in the image memory 318. When the data in PDL is supplied from an external device such as the host computer 500 or a communication line via the communication unit 330 or from the recording unit 320, the supplied data in PDL is temporarily stored in the storage unit 316. After being read, the data is expanded into raster image data by the control unit 314 and then stored in the image memory 318. Reference numeral 320 denotes a recording unit that records an operation program of the control unit 314 and / or an image stored in the image memory 318, and further records data in PDL, and is configured by a recording medium such as a hard disk or a memory card. Is done. Of course, the recording unit 320 may be constituted by a recording medium such as a semiconductor memory, a magnetic disk, a micro DAT, a magneto-optical disk, an optical disk, or a combination thereof.
[0090]
Reference numeral 322 denotes an interface with the first printer 100, and 324 denotes a connector that exchanges control signals and data signals with the first printer 100. 326 is an interface with the second printer 200, and 328 is a connector that exchanges control signals and data signals with the second printer 200. A communication unit 330 communicates with an external device such as the host computer 500 and a communication line, and performs communication control, data conversion / inverse conversion, modulation / demodulation, and the like according to the protocol of the layer to be connected. A connector 332 exchanges data signals and control signals with external devices such as the host computer 500 and communication lines.
[0091]
In the second embodiment, an example will be described in which color and monochrome images are formed by expanding PDL data and the like input from an external device such as the host computer 500 via the communication unit 330. Hereinafter, the image forming process in the second embodiment will be described with reference to the flowcharts of FIGS.
[0092]
The processing shown in the flowcharts of FIGS. 10 and 11 is stored in the storage unit 316 of the image processing apparatus 300, the storage unit 116 of the first printer 100, or the storage unit 216 of the second printer 200 as a control program. . Data signals and control signals are exchanged between the control unit 314 of the image processing apparatus 300 and the control unit 114 of the first printer 100 via the interface 322, the connector 324, the interface cable 402, the connector 124, and the interface 122. Shall be performed. Data signals and control signals are exchanged between the control unit 314 of the image processing apparatus 300 and the control unit 214 of the second printer 200 via the interface 326, the connector 328, the interface cable 404, the connector 224, and the interface 222. Shall be performed.
[0093]
10, first, when the power of the image processing apparatus 300 is turned on, the control unit 314 initializes flags and control variables, and executes a control program such as an operating system stored in a part of the area of the storage unit 316. Then, each unit of the image processing apparatus 300 is initialized (step S81). In the first printer 100 as well, when the power is turned on, the control unit 114 initializes flags, control variables, and the like, executes a control program stored in a part of the area of the storage unit 116, and executes various parts of the first printer 100. Is initialized. Also, in the second printer 200, when the power is turned on, the control unit 214 initializes flags, control variables, and the like, executes the control program stored in a part of the area of the storage unit 216, and also executes each unit of the second printer 200. Is initialized.
[0094]
The control unit 314 of the image processing apparatus 300 performs mixed print processing together with the control unit 114 of the first printer 100 and / or the control unit 214 of the second printer 200 in response to a request from an externally connected device such as the host computer 500. (Step S82).
[0095]
Here, the mixed print processing will be described. After sequentially receiving print data in a plurality of pages in a page description language (PDL) in which a color image and a black-and-white image are mixed by the communication unit 330 of the image processing apparatus 300 and temporarily storing the print data in the storage unit 316, the control unit 314 The PDL data read from the storage unit 316 is developed into raster image data and stored in the image memory 318. At this time, the mixed mode table 123 is generated according to whether the image data in the image memory 318 is a color image or a monochrome image. When the image data stored in the image memory 318 is a color image, the control unit 314 instructs the control unit 114 of the first print 100 to perform a color image forming process, and transmits the image data to the image processing apparatus 300. From the first printer 100. Thereby, a color image is formed in the image forming unit 132.
[0096]
On the other hand, when the image data stored in the image memory 318 is a black and white image, the control unit 314 instructs the control unit 214 of the second printer 200 to perform a black and white image forming process, and converts the image data into the image processing device 300. The data is supplied to the second printer 200. Thereby, black and white image formation is performed in the image forming unit 232.
[0097]
Then, the recording sheet on which the image is formed by each of the image forming units 132 and 232 is stored or discharged based on the content of the mixed mode table 123 so as to be suitable for the mixed sorting process (step S87) described later. . The details of the mixed print process will be described later.
[0098]
When the mixed print process in step S82 is completed, the control unit 314 of the image processing apparatus 300 instructs the control unit 114 of the first printer 100 and the control unit 214 of the second printer 200 to perform a sort process (S83). If the control unit 114 of the first printer 100 determines that the mixed printing is not performed by referring to the data of the mixed mode table 123 recorded in the mixed print processing S82 (step S84), the determination result is obtained. Is notified to the control unit 314 of the image processing apparatus 300, and it is determined whether or not the recording paper stored in the storage unit 136 has been discharged to the paper discharge unit 134 (step S88). It is discharged to the unit 134 (step S89). When the recording paper is no longer stored in the storage unit 136, the control unit 114 notifies the processing result to the control unit 314 of the image processing apparatus 300. Then, returning to step S82, the control unit 314 of the image processing apparatus 300 waits for the next print queue.
[0099]
On the other hand, if it is determined that mixed printing has been performed (step S84), the control unit 114 notifies the control unit 314 of the image processing apparatus 300 of the determination result, and the display unit 112 displays the first printer 100 and the second printer. An instruction is displayed to the operator of the printer 200 to indicate the next procedure to be performed by the operator (step S85). By following this instruction display, the operators of the first printer 100 and the second printer 200 take out the recording paper output to the paper output unit 234 of the second printer 200, and execute the first printing so as not to disturb the order of the paper output. After the printer 100 is mounted on the external paper feeding unit 138 of the first printer 100, a start switch 1303 included in the operation unit 110 of the first printer 100 can be pressed.
[0100]
If the start switch 1303 included in the operation unit 110 is turned on (step S86), the control unit 114 notifies the control unit 314 of the image processing apparatus 300 of the determination result, and performs the mixed sorting process (step S87). According to the mixed sorting process, the recording paper formed and stored or discharged by the first printer 100 and the second printer 200 can be aligned by the first printer 100 in the original document order. The details of the mixed sort processing are the same as the processing shown in FIG. 6 in the first embodiment described above, and thus the description is omitted.
[0101]
When the mixed sorting process in step S87 is completed in the first printer, the control unit 114 notifies the control unit 314 of the image processing apparatus 300 of the processing result. Then, returning to step S82, the control unit 314 of the image processing apparatus 300 waits for the next print queue.
[0102]
On the other hand, if the stop switch 1301 included in the operation unit 110 is turned on (step S90) while the start switch 1303 remains off (step S86), the control unit 114 performs a stop process (step S91). This is notified to the control unit 314 of the image processing apparatus 300. According to the stop process, the mixed sort process in step S87 is stopped, and a return process such as discharging the recording sheet stored in the storage unit 136 is performed. The details of this stop processing are the same as those in FIG. 7 shown in the above-described first embodiment, and a description thereof will be omitted.
[0103]
When the stop processing in step S91 ends, the control unit 114 notifies the control unit 314 of the image processing apparatus 300 of the processing result. Then, returning to step S82, the control unit 314 of the image processing apparatus 300 waits for the next print queue.
[0104]
Hereinafter, the mixed print processing shown in step S82 will be described in detail with reference to the flowchart in FIG.
[0105]
11, first, the control unit 314 of the image processing apparatus 300 performs a predetermined initialization process required for the image processing apparatus 300 to start image processing, and performs control of the control unit 114 of the first printer 100 and the second printer. The controller 200 instructs the control unit 214 to perform an initialization process. The control unit 114 performs a predetermined initialization process required for the first printer 100 to start the image forming process. Further, the control unit 214 performs a predetermined initialization process required for the second printer 200 to start the image forming process (Step S101). According to this initialization process, the communication unit 330, the storage unit 316, the image memory 318, the interface 322, the interface 326, and the like of the image processing apparatus 300 are in a normally operable state in order to perform the mixed print process. In addition to confirming whether or not to perform the operation, various settings necessary for the operation of each of these components can be performed, and the operation can be started. Whether or not the document supply unit 150, the paper supply unit 130, the image forming unit 132, the paper discharge unit 134, the storage unit 136, the external paper supply unit 138, and the like of the first printer 100 are present. Checks whether necessary functions are provided, and whether each of these components is in a normally operable state, etc., and performs various settings necessary for the operation of each of these components. , The operation can be started. Then, the control unit 114 notifies the control unit 314 of the image processing apparatus 300 of these confirmation results.
[0106]
Further, whether or not the paper feed unit 230, the image forming unit 232, the paper discharge unit 234, and the like of the second printer 200 are present, whether or not each of these components has necessary functions, and It is possible to confirm whether or not each component is in a normally operable state, to perform various settings necessary for the operation of each component, and to start the operation. Then, the control unit 214 notifies the control unit 314 of the image processing device 300 of these confirmation results.
[0107]
The control unit 314 determines the result of the confirmation in the initialization process in step S101 (step S102). If there is a problem in starting the mixed print process, the display unit 312 issues a warning or instruction by voice or video as necessary. Is displayed, and a warning process is instructed to the control unit 114 of the first printer 100 and the control unit 214 of the second printer 200. The control unit 114 causes the display unit 112 to display a warning or instruction by voice or video for the item requested by the control unit 314. In addition, the control unit 214 causes the display unit 212 to display a warning or instruction by voice or video for the item requested by the control unit 314 (step S118). The control unit 314 performs a predetermined end process in each unit of the image processing apparatus 300, and instructs the control unit 114 of the first printer 100 and the control unit 214 of the second printer 200 to perform the end process. The control unit 114 performs a predetermined end process in each unit of the first printer 100 and notifies the control unit 314 of the processing result. Further, the control unit 214 performs a predetermined end process in each unit of the second printer 200, and notifies the control unit 314 of the processing result (step S117). Then, when the termination processing of step S117 is completed, the mixed print processing shown in step S82 of FIG. 10 is terminated.
[0108]
On the other hand, in step S102, if there is no problem in starting the mixed print processing, the control unit 314 determines from the externally connected device such as the host computer 500 whether there is a queue for data to be printed, a so-called print queue. Is determined via the communication unit 330 (step S103). If the print queue does not exist, the control unit 314 receives, by the communication unit 330, print data of a plurality of PDLs in which full-color print and black-and-white print are mixed, and temporarily stores the print data in the storage unit 316 (step). S104). Then, the control unit 314 sequentially reads out the PDL data temporarily stored in the storage unit 316, develops it into raster image data, and stores it in the image memory 318 (steps S105 and S106).
[0109]
As a result of raster image data development, if it is determined that the image data is a color print (step S107), the control unit 314 stores the color mode in the predetermined address of the mixed mode table 123 set in the initialization processing in step S101. Is written (step S108), the control unit 114 of the first printer 100 is instructed to perform a color image forming process, and the image data is supplied from the image processing apparatus 300 to the first printer 100. To form a color image (step S109). Then, the recording paper on which the color image is formed is stored in the storage unit 136 (Step S110).
[0110]
Here, the details of the color image forming process in step S109 will be described below.
[0111]
The control unit 114 writes the color image data supplied from the image processing device 300 into the image memory 118. The control unit 114 of the first printer reads out the color image data from the image memory 118 in synchronization with the feeding of the recording sheet sent from the sheet feeding unit 130, and outputs color signals suitable for image formation, for example, C and M. , Y, and K colors, and the image forming unit 132 forms a color image of characters and images on recording paper of various materials. In this way, the color image forming process is performed.
[0112]
On the other hand, if it is determined that the image data is a monochrome print as a result of raster image data development (step S107), the control unit 314 sets the predetermined address of the mixed mode table 123 set in the initialization processing of step S101. After writing the data indicating the black and white mode (step S111), the control unit 214 of the second printer 200 is instructed to perform a black and white image forming process, and the image data is supplied from the image processing apparatus 300 to the second printer 200, and the image forming is performed. A monochrome image is formed by the unit 232 (step S112). Then, the recording paper on which the black and white image is formed is discharged to the paper discharge unit 234 (Step S113).
[0113]
Here, the details of the monochrome image forming process in step S112 will be described below.
[0114]
The control unit 214 writes the monochrome image data supplied from the image processing device 300 into the image memory 218. The control unit 214 of the second printer 200 reads black and white image data from the image memory 218 in synchronization with the feeding of the recording sheet sent from the sheet feeding unit 230, and records various materials by the image forming unit 232. Form black and white images of characters and images on paper. In this way, a black and white image forming process is performed.
[0115]
When the storage processing in step S110 or the paper discharge processing in step S113 is completed, the control unit 314 determines whether the first printer 100 has normally formed a color image and stored the color image in the storage unit 136. Determines whether a black-and-white image has been normally formed in the second printer 200 and has been discharged to the paper discharge unit 234 (step S114). If the storage or discharge has not been performed normally, Then, the process proceeds to step S118 to perform the above-described warning process, and performs an end process in step S117, thereby ending the mixed print process shown in step S82 in FIG.
[0116]
On the other hand, in the first printer 100, a color image is normally formed and stored in the storage unit 136, or in the second printer 200, a black and white image is normally formed and discharged to the paper discharge unit 234. If it is determined that there is a next print (step S114), and there is a next print (step S115), the control unit 314 advances the mixed mode table 123 to the next address (step S116). Then, the process returns to step S103, and a series of processes is repeated.
[0117]
If there is no next print in step S115, the flow advances to step S117 to perform the above-described end processing, thereby ending the mixed print processing shown in step S82 in FIG.
[0118]
As described above, according to the second embodiment, even when image data described in PDL is received from an external device such as a host computer, the image data is divided into color data and monochrome data as in the above-described first embodiment. Can be processed.
[0119]
The embodiments of the present invention have been described based on the configurations shown in FIGS. 1, 2, 3, 8, and 9. In each of these embodiments, the first printer 100 and the second printer 200 have been described as being separated from each other and can be arbitrarily connected. However, the present invention is not limited to this example. For example, of course, there is no problem even if they are integrally formed. In this case, the components other than the color image forming unit 132, the black-and-white image forming unit 232, the storage unit 136, and the document feeding unit 150 can be shared, so that a cheaper configuration can be realized.
[0120]
Further, in this case, the paper discharge unit 234 of the second printer 200 and the external paper supply unit 138 of the first printer 100 can have a common configuration. Thereby, the operators of the first printer 100 and the second printer 200 take out the recording paper output to the paper output unit 234 of the second printer 200 according to the instruction display on the operation unit, and do not disturb the order of the paper output. Then, the user does not need to perform a complicated operation of pressing the start switch included in the operation unit 110 of the first printer 100 after attaching the external switch to the external paper feeding unit of the first printer 100. Therefore, mixed copy and mixed print can be performed more easily.
[0121]
The image processing apparatus 300 and the first printer 100 and the second printer 200 are separated from each other and have been described as being arbitrarily connectable. However, the image processing apparatus 300 and the first printer 100 are integrated. Alternatively, the image processing apparatus 300 and the second printer 200 may be integrated, or the image processing apparatus 300, the first printer 100, and the second printer 200 may be integrated. Of course, no problem. Further, a configuration in which more (three or more) image forming apparatuses can be arbitrarily connected, or a configuration in which three or more image forming apparatuses can be arbitrarily connected to the image processing apparatus, may be employed.
[0122]
Further, in each of the above-described embodiments, it has been described that the document is sequentially supplied from the document supply unit 150 of the first printer 100 to the reading unit 120, and the reading unit 120 performs color and monochrome image reading. The printer 200 may include a document supply unit, and the document supply unit may sequentially supply the document to the reading unit 220, and the reading unit 220 may read color and black and white images.
[0123]
The storage unit 136 and the external paper supply unit 138 of the first printer 100 may include, for example, a plurality of units.
[0124]
Further, the second printer 200 may be provided with one or more storage units and an external paper supply unit.
[0125]
Note that the mixed mode table 123 is not necessarily limited to the example shown in FIG. 12. For example, a predetermined size may be secured as a mixed mode table area in advance, or when the mixed mode switch is turned on. An area of a predetermined size may be secured, or, of course, an area may be secured so that it can be additionally extended according to the number of pages. Further, the mixed mode table 123 may be configured such that only “mode” data is arranged in page order without having “page number” as data, or may be a table having other page information together. good.
[0126]
Further, in each of the above-described embodiments, a description has been given of a document in which color pages and monochrome pages are mixed. However, the present invention is not limited to color pages and monochrome pages. It goes without saying that an image to be satisfied satisfies the gist of the present invention.
[0127]
In each of the above-described embodiments, if the first printer and the second printer do not accept any print request other than the mixed copy in response to, for example, pressing the mixed mode switch, the trouble caused by the interruption is eliminated. Thus, more reliable mixed copy processing can be performed.
[0128]
The present invention is also applicable, for example, to a case where the first printer 100 has a sorter function and the paper discharge unit 134 has a plurality of sorter bins. That is, a predetermined number of copies of black-and-white image recording paper are collectively placed on each page of the external paper supply unit 138, so that the mixed sort processing and the paper distribution processing to a plurality of sorter bins are performed.
[0129]
The present invention may be applied to a system including a plurality of devices or to an apparatus including a single device. Needless to say, the present invention can be applied to a case where the present invention is achieved by supplying a program to a system or an apparatus.
[0130]
【The invention's effect】
As described above, according to the present invention, when performing image formation on a plurality of sheets in which a color original and a black-and-white original are mixed, even when a small number of color originals are inserted in the majority of black-and-white originals, A color original is formed by a color image forming unit, and a black and white original is formed by a black and white image forming unit, and then an appropriate sorting process is performed. Speed can be improved.
[0131]
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of an image processing system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a detailed configuration of a first printer 100 according to the embodiment.
FIG. 3 is a block diagram illustrating a detailed configuration of a second printer 200 according to the embodiment.
FIG. 4 is a flowchart illustrating image processing according to the present exemplary embodiment.
FIG. 5 is a flowchart illustrating mixed copy processing according to the present embodiment.
FIG. 6 is a flowchart illustrating a mixed sort process according to the present embodiment.
FIG. 7 is a flowchart illustrating stop processing according to the present embodiment.
FIG. 8 is a block diagram illustrating a configuration of an image processing system according to a second embodiment of the present invention.
FIG. 9 is a block diagram illustrating a detailed configuration of an image processing apparatus 300 according to a second embodiment.
FIG. 10 is a flowchart illustrating image processing according to the second embodiment.
FIG. 11 is a flowchart illustrating mixed copy processing according to the second embodiment.
FIG. 12 is a diagram illustrating an example of a mixed mode table according to the present embodiment.
FIG. 13 is a diagram illustrating an appearance of an operation unit according to the present embodiment.
[Explanation of symbols]
100 First printer
110, 210, 310 Operation unit
112, 212, 312 display unit
114, 214, 314 control unit
116, 216, 316 storage unit
118, 218, 318 Image memory
120, 220 reading unit
122,222,322,326 interface
123 Mixed mode table
124,224,324,328,332 Connector
125 timer
130, 230 Paper feed unit
132,232 Image forming unit
134, 234 paper discharge unit
136 storage
138 External paper feeder
150 Document feeder
200 Second printer
300 Image processing device
320 Recorder
330 communication unit
500 host computer

Claims (16)

Input means for inputting image data of a plurality of pages,
Storage means for storing image forming mode information of a plurality of pages of image data input by the input means in page order,
Image forming means for forming, on a recording medium, image data of a predetermined image forming mode among image data of a plurality of pages input by the input means;
Storage means for storing a recording medium formed by the image forming means,
A sheet feeding unit that feeds a recording medium formed by an external device, in which image data in an image forming mode other than the predetermined image forming mode among the image data of a plurality of pages input by the input unit ;
Referring to the image forming mode information stored in the storage unit, a recording medium corresponding to a page having the predetermined image forming mode is recorded from the storage unit to a page corresponding to a page having another image forming mode . An image processing apparatus comprising: a discharge unit for feeding a medium from the paper supply unit and discharging the medium in the order of pages. 2. The image processing apparatus according to claim 1, wherein the predetermined image forming mode is a mode indicating color image formation. 2. The image processing apparatus according to claim 1, wherein the predetermined image forming mode is a mode indicating monochromatic image formation. 2. The image processing apparatus according to claim 1, wherein the input unit inputs the image data by optically scanning and reading a document image. 2. The image processing apparatus according to claim 1, wherein the input unit inputs by receiving image data from an external device. An image processing system including a first image forming apparatus and a second image forming apparatus as constituents,
The first image forming apparatus includes:
Input means for inputting image data of a plurality of pages,
Storage means for storing image forming mode information of a plurality of pages of image data input by the input means in page order,
A first image forming unit for forming, on a recording medium, image data in a predetermined image forming mode among a plurality of pages of image data input by the input unit;
Storage means for storing a recording medium formed by the first image forming means;
Among the image data of a plurality of pages input by said input means, a first communication means for transmitting the image data of the page having the image forming mode other than the predetermined image forming mode to the second image forming apparatus,
Paper feeding means for feeding a recording medium on which an image is formed by the second image forming apparatus ;
Referring to the image forming mode information stored in the storage unit, a recording medium corresponding to a page having the predetermined image forming mode is recorded from the storage unit to a page corresponding to a page having another image forming mode . the medium is paper feed from each of the paper feeding means includes a first discharge means for discharging the page order, a,
The second image forming apparatus includes:
A second communication unit for receiving the image data transmitted by the first communication unit;
Second image forming means for forming image data received by the second communication means on a recording medium;
An image processing system, comprising: a second discharging unit that discharges a recording medium on which an image is formed by the second image forming unit to the first image forming apparatus . The image processing system according to claim 6, wherein the predetermined image forming mode is a mode indicating color image formation. 7. The image processing system according to claim 6, wherein the predetermined image forming mode is a mode indicating monochromatic image formation. 7. The image processing system according to claim 6 , wherein the input unit inputs the image data by optically scanning and reading a document image. 7. The image processing system according to claim 6 , wherein the input unit inputs by receiving image data from an external device. Further, the image processing apparatus includes an image processing apparatus as a configuration,
Second input means for inputting a plurality of pages of image data described in a page description language from an external device;
Expanding means for expanding the image data described in the page description language into raster image data;
11. The image processing system according to claim 10 , further comprising third communication means for transmitting said raster image data to said first image forming apparatus. An input step of inputting image data of a plurality of pages,
A storage step of storing image formation mode information of the image data of a plurality of pages input in the input step in page order,
An image forming step of forming, on a recording medium, image data in a predetermined image forming mode , among image data of a plurality of pages input in the input step;
A storage step of storing the recording medium formed in the image forming step in a storage unit,
A paper feeding step of feeding a recording medium on which image data in an image forming mode other than a predetermined image forming mode is formed, among the image data of a plurality of pages input in the input step ,
With reference to the image forming mode information stored in the storing step, for the page having the predetermined image forming mode , the recording medium stored in the storing step is replaced with the page having the other image forming mode . an image processing method characterized in that it comprises a discharge step of discharging the recording medium is fed in the feeding step respectively fed, the page order for. 13. The image processing method according to claim 12, wherein the predetermined image forming mode is a mode indicating color image formation. 13. The image processing method according to claim 12, wherein the predetermined image forming mode is a mode indicating monochrome image formation. Wherein the input step, by scanning and reading an original image optically, an image processing method according to claim 12, wherein the inputting the image data. 13. The image processing method according to claim 12 , wherein the inputting is performed by receiving image data from an external device.

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