JP3601505B2 - Copy system - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention , Copy system for producing copies of manuscripts To Related.
[0002]
[Problems to be solved by the invention]
As is well known, in order to obtain a two-sided copy of a two-sided original using a copier, settings for that purpose must be made on an operation panel of the copier. However, if the operator of the copier is a person who has been requested to perform a copy operation, the user may perform the copy operation without performing the above setting without noticing that the original is a two-sided original. There are often.
[0003]
In recent years, digitalization of documents (printed materials) for filing has become popular, but even at that time, without noticing (or forgetting) that the documents are double-sided printed materials, In some cases, only one side was converted to digital data.
[0004]
The present invention has been made in view of such circumstances, and an object of the present invention is to prevent a double-sided original from being handled as a single-sided original due to an operator's mistake. Copy system Is to provide.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a copy system for performing copying, If the printing device can be used as a network printer and double-sided printing is instructed, the specified content is printed on the front and back surfaces, and the predetermined content is determined at a predetermined position on the front surface. When a sheet on which a mark is drawn is generated and one-sided printing is instructed, a sheet in which the specified content is printed on the front side and nothing is drawn at a predetermined position on the front side. Printing apparatus, image data generating means for generating image data representing an image on a supplied original, original holding means capable of holding a plurality of originals, and one sheet held by the original holding means The function of supplying the above-mentioned originals one by one to the image data generating means, the function of discharging the originals supplied to the image data generating means, and the reverse of the original supplied to the image data generating means to generate the image data A document feeder having a function of supplying the document to the column, and for each document held by the document holding means, the image data generator generates image data of an image on the document, and the image data generator generates the image data. Based on the obtained image data, it is determined whether or not a double-sided determination mark is present at a predetermined position of the document. If the double-sided determination mark is not present at the predetermined position, the document is discharged to the document conveying means. When the double-sided determination mark is present at the predetermined position, the document is turned over by the document feeder and supplied to the image data generator, and the image data on the back side of the document is generated by the image data generator. Later, when the reading control means for discharging the document to the document conveying means and the reading control means determines that the double-sided determination mark does not exist at the predetermined position, the image data generating means Causes the printing apparatus to perform single-sided printing based on the image data generated by the printer, and when the reading control unit determines that the double-sided determination mark exists at a predetermined position, the image for two pages generated by the image data generating unit Print control means for causing a printing apparatus to execute duplex printing based on data And
[0009]
In addition, the present invention Other aspects The copy system is a printing execution unit capable of performing double-sided printing and single-sided printing, an image data generating unit that generates image data representing an image on the supplied document, a document holding unit that can hold a plurality of documents, The function of supplying one or more originals held by the original holding unit to the image data generating unit one by one, the function of discharging the original supplied to the image data generating unit, and the function of supplying the original to the image data generating unit. A document conveying unit having a function of turning over the original and supplying the image data to the image data generating unit; and for each single document held by the document holding unit, the image data generating unit generates image data of an image on the original. Based on the image data generated by the image data generating means, , Double-sided determination mark in a form where its presence is hardly visible Judge whether or not Double-sided judgment mark If the document does not exist, the document is discharged by the document conveying means, and Double-sided judgment mark If the document exists, the document is turned over by the document feeder and supplied to the image data generator, and the image data on the back side of the document is generated by the image data generator. Control means for discharging the paper and the read control means Double-sided judgment mark When it is determined that the image data does not exist, the print execution unit performs one-sided printing based on the image data generated by the image data generation unit, and the reading control unit moves to a predetermined position. Double-sided judgment mark Is determined to exist based on the image data of two pages generated by the image data generating means. , In the form that the double-sided judgment mark is redrawn Print control means for causing the print execution means to execute double-sided printing.
[0010]
That is, the present invention Of each aspect Copy system (Copy system according to claims 1 and 2) Is in place Double-sided judgment mark , It is determined whether the original is a two-sided original or a one-sided original. If the original is a two-sided original, a two-sided copy is automatically generated. Therefore, Of each aspect of the present invention If the copy system is used in an environment where most of the two-sided originals have predetermined information drawn at predetermined positions on the front side, the operator erroneously copies only one side of the two-sided original. Can be prevented.
[0011]
It should be noted that the present invention Of each aspect The copy system may be realized as a single device, for example, a system in which a scanner, a printer, and their control devices are combined.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0017]
First, an outline of a copy system according to an embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an external view of a copy system according to the present embodiment, and FIG. 2 is an explanatory diagram of a configuration and a use form of the copy system. FIG. 3 is an external view of a copy operation unit used in the present copy system.
[0018]
As shown in FIGS. 1 and 2, the copy system 10 according to the present embodiment includes a copy operation unit 11, a scanner 12, a printer 13, and a network scanning unit 14, and the copy operation unit 11 is connected to the scanner 12 and the printer 13. This is a system in which the scanner 12 is connected to the network scanning unit 14. The copy system 10 is a system in which a printer 13 and a network scanning unit 14 are used by being connected to a LAN.
[0019]
The scanner 12 used in the copy system 10 has a flatbed scanner provided with an ADF (auto document feeder) capable of turning over an original, and an extension board as an interface circuit with the copy operation unit 11 mounted on the flatbed scanner. Equipment. The printer 13 is a device in which an expansion board which is an interface circuit with the copy operation unit 11 is mounted on a network printer capable of performing double-sided printing.
[0020]
The copy operation unit 11 is a device that operates a system including itself, the scanner 12 and the printer 13 as a copier. The copy operation unit 11 is a kind of computer (a device including a CPU, a ROM, a RAM, an ASIC for image processing, various interface circuits, and the like). The copy operation unit 11 is shown in FIG. As described above, as means (elements) for the interface with the user, the touch screen 21, the start button 22s, the ten keys, and the like are provided.
[0021]
The copy operation unit 11 obtains a copy condition (control condition of the scanner 12 and the printer 13) from the user through the touch screen 21, the numeric keypad, and the like, and when the start button 22s is pressed, the copy designated at that time is performed. A copy control process (details will be described later) for controlling the scanner 12 and the printer 13 according to the conditions is executed.
[0022]
The network scanning unit 14 is a device that causes the scanner 12 to generate image data of a document and stores the image data in a personal computer (PC) on a LAN (hereinafter, referred to as document digitizing process). The network scanning unit 14 is also a kind of computer. The network scanning unit 14 includes a liquid crystal panel 31, a start button 32, three kinds of menu-related buttons 33, and the like as means for interfacing with a user. Is provided.
[0023]
In a normal state (a state in which the document digitizing process is not executed), the network scanning unit 14 transmits information for instructing addition or updating of preset information from the PC and the start buttons 32 and 3. The operation of the menu related buttons 33 and the like is monitored. Here, the preset information is information that specifies the contents of the document digitizing process to be executed, and the preset information includes data that specifies operating conditions (resolution of image data, etc.) of the scanner 12, image data, and the like. The data includes data specifying a data storage location (computer name and folder name) and data specifying a processing mode (details will be described later).
[0024]
When information instructing the addition or update of the preset information is transmitted from the PC, the network scanning unit 14 performs a process of storing new preset information and a content of the stored preset information in accordance with the information. Perform the change process.
[0025]
When the menu-related button 33 is operated, the network scanning unit 14 changes the display content of the liquid crystal panel 31 to the one corresponding to the operated menu-related button 33 (any preset information is used). (A process of acquiring an instruction as to whether or not an instruction from the user) is performed. Then, when the start button 22s is pressed, the network scanning unit 14 sets the conditions (the operating conditions of the scanner 12, the storage location of the image data, and the processing mode) indicated by the preset information selected at that time. A document digitizing process corresponding to the content is performed.
[0026]
Although the specific contents of the document digitizing process will be described later, the network scanning unit 14 provides an “automatic” mode, a “double-sided” mode, and a “single-sided” mode as processing modes. Then, when the “automatic” mode is designated as the processing mode (when the preset information that designates the processing mode as the “automatic” mode is selected), the network scanning unit 14 determines based on the presence or absence of the double-sided determination mark. Then, a document digitizing process of a procedure for determining whether the document is a double-sided document or a single-sided document is executed. When the processing mode is set to the “double-sided” mode or the “single-sided” mode, the network scanning unit 14 executes document digitizing processing in which the document is treated as a double-sided document and a single-sided document, respectively.
[0027]
Based on the above, the functions (configuration and operation) of the copy system 10 according to the present embodiment will be specifically described below.
[0028]
First, the function of the printer 13 will be described.
[0029]
As described above, since the printer 13 is a network printer capable of performing double-sided printing, print data for instructing single-sided printing is transmitted from the PC on the LAN to the printer 13, and the printer 13 is also instructed for double-sided printing. Print data may be transmitted. As will be described in detail later, when a two-sided copy is generated using the copy system 10, the copy operation unit 11 instructs the printer 13 to perform the two-sided printing, and the one-sided copy is generated. In this case, the copy operation unit 11 instructs the printer 13 to perform one-sided printing.
[0030]
The printer 13 operates as follows in response to these events.
[0031]
The printer 13 receives the print data instructing the single-sided printing, or when the single-sided printing is instructed from the copy operation unit 11, the predetermined area (in this embodiment, the small area at the upper right corner and the lower left corner of the sheet). A single-sided printing is performed in a processing procedure in which a print result in which nothing is drawn is discharged in an area (hereinafter referred to as a mark area). Specifically, when the single-sided printing is instructed, the printer 13 generates data to be supplied to the print engine, in addition to the same processing as that performed by a general printer, and adds a mark area portion. Is configured to perform a process for setting a blank.
[0032]
On the other hand, when print data instructing double-sided printing is received, or when double-sided printing is instructed from the copy operation unit 11, the printer 13 stores information of a predetermined shape in a mark area on the front surface (in this embodiment, visually, Although the existence of the dot pattern is hardly known, a dot pattern that can be confirmed by computer processing of the image data is ejected. Perform printing. Specifically, when the printer 13 is instructed to perform double-sided printing, the printer 13 generates data to be supplied to the print engine, in addition to the same processing as that performed by the general printer 13, It is configured to perform processing for making the mark area portion a double-sided determination mark instead of the content (blank or double-sided determination mark) specified by data from the PC or the copy operation unit 11.
[0033]
In short, the printer 13 used in the present copy system 10 always prints on the front surface (whether or not the data supplied for printing includes data instructing the drawing of the double-sided determination mark). By inspecting whether or not a double-sided determination mark is present, the device generates a printed matter that can be distinguished as a double-sided printed matter or a single-sided printed matter.
[0034]
Next, the function of the copy operation unit 11 will be described.
[0035]
Normally (when the copy control process is not performed), the copy operation unit 11 allows the user to display the basic operation screen as shown in FIG. The operation of the start button 22s is monitored.
[0036]
The copy mode button 50 provided on the basic operation screen is a button in which information indicating the currently set copy mode (“double-sided automatic” in the figure) is shown. The copy mode button 50 is a button that should be pressed (touched with a finger) by the user when changing the copy mode.
[0037]
When the copy mode button 50 is pressed, as shown in FIG. 5, the copy operation unit 11 performs five types of copy modes (“double-sided → single-sided” mode, “double-sided → A copy mode including five buttons 51 to 55, an "enter" button 56, and the like respectively associated with a "double-sided" mode, a "single-sided" one-sided mode, a "single-sided double-sided" mode, and an "auto" mode A selection screen is displayed on the touch screen 21.
[0038]
The details of the copy control process executed when each copy mode is selected will be described later. In the “automatic” mode, the original is a single-sided original or a double-sided original by examining the presence or absence of a double-sided determination mark. In this mode, a simplex copy is generated for a single-sided original, and a double-sided copy is generated for a double-sided original.
[0039]
The “double-sided → single-sided” mode is a copy mode in which the contents of the front side and the contents of the back side of one document are copied on separate sheets. The “double-sided → double-sided” mode is a mode in which the content of the front side and the content of the back side of one document are respectively copied on the front side and the back side of one sheet. The “single-sided → one-sided” mode is a mode in which the contents of the front side of one document are copied onto the front side of one sheet. The “single-sided → double-sided” mode is a mode in which the contents of the front side of two originals are copied to the front side and back side of one sheet.
[0040]
When any one of the buttons 51 to 55 on the copy mode selection screen is pressed, the copy operation unit 11 changes the display form of the pressed button to indicate that the corresponding copy mode is selected. change. When the “OK” button 56 is pressed, the copy operation unit 11 changes the basic operation screen having the copy mode button 50 in which information indicating the copy mode selected by the user is displayed inside to the touch screen 21. To display.
[0041]
Then, when the start button 22s is pressed, the copy operation unit 11 starts copy control processing for the selected copy mode.
[0042]
Specifically, when the “automatic” mode is selected, the copy operation unit 11 starts the copy control process of the procedure shown in FIG.
[0043]
That is, the copy operation unit 11 instructs the scanner 12 to take in one document from the ADF, supply the document to the platen, and scan the document (output image data representing an image on the document). An instruction is given (step S101).
[0044]
Next, the copy operation unit 11 performs specified image processing (such as moiré removal and contour emphasis) on the image data output by the scanner 12, and then supplies the image data to the printer 13 (step S121). In step S121, based on the image data output by the scanner 12, the copy operation unit 11 determines whether the original scanned by the scanner 12 is an original having a double-sided determination mark drawn in the mark area (that is, a double-sided original). (Document).
[0045]
When the supply of the image data for one page to the printer 13 is completed, the copy operation unit 11 ends the process of step S102. When the double-sided determination mark is drawn on the original scanned by the scanner 12 (step S103; YES), the copy operation unit 11 instructs the scanner 12 to scan the back side of the original on the original platen. (Scanning after turning over the original on the original platen) (step S104).
[0046]
Thereafter, the copy operation unit 11 performs image processing on the image data output from the scanner 12 without checking the presence or absence of the double-sided determination mark, and then supplies the image data to the printer 13 (step S105). When the supply of one page of image data to the printer 13 is completed, the copy operation unit 11 ends the process of step S105. In the subsequent step S106, the supplied two pages of image data are sent to the printer 13. A process for instructing double-sided printing is performed based on the data.
[0047]
As described above, the printer 13 receiving this instruction sets the mark area on the front surface to the double-sided determination mark instead of the content specified in the data from the copy operation unit 11 (in this case, the double-sided determination mark). Double-sided printing is performed in a procedure involving the process of Therefore, the printer 13 outputs a copy result in which the double-sided determination mark portion is not deteriorated (the double-sided determination mark is not blurred).
[0048]
Thereafter, the copy operation unit 11 instructs the scanner 12 to discharge the document on the document table (step S108). If the document remains in the ADF of the scanner 12 (step S109; YES), The processing from step S101 is executed again.
[0049]
Then, when the processing for all the originals in the ADF is completed (step S109; NO), the copy operation unit 11 ends the copy control processing whose procedure is shown in FIG. Then, the state returns to the state of waiting for the start button 22s to be operated by the user.
[0050]
Further, when the start button 22s is pressed in a state where a copy mode different from the “automatic” mode is selected, the copy operation unit 11 does not check the presence or absence of the double-sided determination mark and does not check the selected copy mode. (A copy control process that is not particularly different from that performed by the existing copy operation unit).
[0051]
That is, when the “double-sided → single-sided” mode is selected, the copy operation unit 11 displays the contents of the front side and the contents of the back side for each document set on the ADF of the scanner 12. The scanner 12 and the printer 13 are controlled so that copies are made on different sheets. When the “double-sided → double-sided” mode is selected, the copy operation unit 11 displays the contents of the front side and the back side of each original set on the ADF of the scanner 12. The scanner 12 and the printer 13 are controlled so that copies are made on the front and back sides of one sheet, respectively. When the “single-sided → single-sided” mode is selected, the copy operation unit 11 sets the contents of the front side of one sheet set on the ADF of the scanner 12 to the front side of one sheet. The scanner 12 and the printer 13 are controlled so as to be copied to the printer. Further, when the “single-sided → double-sided” mode is selected, the copy operation unit 11 copies the contents of the front side and the back side of one sheet for each two originals. Thus, the scanner 12 and the printer 13 are controlled.
[0052]
Then, when the processing for all the originals is completed, the copy operation unit 11 returns the copy mode to the “automatic” mode, and then ends the copy control processing (the user operates the touch screen 21, the numeric keypad, etc.). Return to the state of waiting for
[0053]
As described above, when the copy mode other than the “automatic” mode is selected, the copy operation unit 11 does not perform any processing related to the double-sided determination mark. However, when one-sided printing is instructed from the copy operation unit 11, the printer 13 discharges a sheet in which nothing is drawn in the mark area (printed on only one side), and When a double-sided printing is instructed from the printer, the paper on which the double-sided determination mark is drawn in the mark area on the front side (printed on both sides) is ejected. Regardless of the type of document set on the scanner 12 (whether the document is a document with a double-sided determination mark or not), if the copy instructed by the user to be generated is a double-sided copy, The copy result having the double-sided determination mark only on the front side is discharged from the printer 13. If the copy instructed by the user to be generated is a one-sided copy, a copy result in which the double-sided determination mark is not drawn on the front side (and the back side) of each sheet is discharged from the printer 13.
[0054]
When the copy and the printed matter generated by using the copy system 10 are two-sided, the two-sided determination mark is drawn on the front side, and when the one-sided side, the two-sided determination mark is drawn. Will not be. Therefore, if the present copy system 10 is used in an environment in which all documents are printed or copied using the present copy system 10, it is possible to prevent copying of only one side of a two-sided original. Become.
[0055]
Next, details of the document digitizing process executed by the network scanning unit 14 will be described.
[0056]
When the start button 32 is pressed in a state where the "automatic" mode is designated, the network scanning unit 14 performs a document digitizing process according to the procedure shown in FIG.
[0057]
That is, the network scanning unit 14 instructs the scanner 12 to take in one document from the ADF and scan the document (step S201).
[0058]
Next, the network scanning unit 14 replaces the image data output by the scanner 12 with the data corresponding to the mark area (original data that may represent a blank) and the data representing a blank, A process for storing the data in the specified storage location (the specified folder of the specified PC) is performed (step S202). In step S202, based on the image data output by the scanner 12, the network scanning unit 14 determines whether the original scanned by the scanner 12 is an original having a double-sided determination mark drawn in a mark area (ie, a double-sided original). (Document).
[0059]
When the processing of the image data for one page is completed, the network scanning unit 14 ends the processing of step S202. If the double-sided determination mark is drawn on the document scanned by the scanner 12 (step S203; YES), the network scanning unit 14 instructs the scanner 12 to scan the back side of the document on the platen. (To scan the document after turning over the document on the platen) (step S204).
[0060]
Thereafter, the network scanning unit 14 replaces the image data output from the scanner 12 with data representing a blank corresponding to the mark area and stores the data in the designated storage location. Perform (Step S205). The image data to be processed in step S205 is usually data (except when the original is set upside down on the ADF) in which data corresponding to the mark area represents data indicating a blank. Things.
[0061]
When the processing of the image data for one page is completed, the network scanning unit 14 ends the processing of step S205. Then, the network scanning unit 14 instructs the scanner 12 to discharge the original on the original platen (step S206). If the original remains in the ADF (step S207; YES), the process from step S201 is performed. Run again.
[0062]
On the other hand, when the double-sided determination mark is not drawn on the document scanned by the scanner 12 (step S203; NO), the network scanning unit 14 does not perform the processing of steps S204 and S205 (the scanner 12). Without scanning the back side of the original), the processing after step S206 is performed.
[0063]
When the processing for all the originals in the ADF is completed (step S207; NO), the network scanning unit 14 ends the original digitizing processing whose procedure is shown in FIG. Then, the operation returns to the standby state until the start button 32 is operated or the information for instructing the addition or update of the preset information is transmitted.
[0064]
When the start button 32 is pressed in the state where the “single-sided” mode is designated, the network scanning unit 14 executes the document digitizing process of the procedure shown in FIG.
[0065]
That is, the network scanning unit 14 supplies one document to the document table from the ADF and instructs the scanner 12 to scan the document (step S301).
[0066]
Next, the network scanning unit 14 replaces the image data output by the scanner 12 with the data corresponding to the mark area, and replaces the data corresponding to the mark area with data representing a blank space, without checking for the presence or absence of the double-sided determination mark. A process for storing data in the storage location is performed (step S302).
[0067]
When the processing of the image data for one page is completed, the network scanning unit 14 ends the processing of step S302. Then, the network scanning unit 14 instructs the scanner 12 to eject the original on the original platen (step S303). If the original remains in the ADF (step S304; YES), the process from step S301 is performed. Run again.
[0068]
The network scanning unit 14 ends the document digitizing process when the process for all the documents in the ADF is completed (step S304; NO). Then, the network scanning unit 14 returns to a state of waiting for operation of the menu-related button 33, the start button 32, and the like, and transmission of information for instructing addition or update of preset information.
[0069]
When the start button 32 is pressed in the state where the “double-sided” mode is designated, the network scanning unit 14 performs the document digitizing process in the procedure shown in FIG.
[0070]
That is, the network scanning unit 14 instructs the scanner 12 to supply one document from the ADF to the document table and scan the document (step S401).
[0071]
Next, the network scanning unit 14 replaces the image data output by the scanner 12 with the data corresponding to the mark area, and replaces the data corresponding to the mark area with data representing a blank, without checking for the presence or absence of the double-sided determination mark. A process for storing data in the storage location is performed (step S402).
[0072]
When the processing of the image data for one page is completed, the network scanning unit 14 ends the processing of step S402. Next, the network scanning unit 14 instructs the scanner 12 to scan the back surface of the document on the document table (step S403).
[0073]
Thereafter, the network scanning unit 14 replaces the image data output from the scanner 12 with data representing a blank corresponding to the mark area and stores the data in the designated storage location ( When the processing of the image data for one page is completed, the scanner 12 is instructed to discharge the original on the original platen (step S405). If the document remains in the ADF (step S406; YES), the processing from step S401 is executed again.
[0074]
The network scanning unit 14 ends the document digitizing process when the process for all documents in the ADF is completed (step S407; NO). Then, the network scanning unit 14 waits for the operation of the menu-related button 33, the start button 32, and the like, and the transmission of information for instructing addition or update of preset information.
[0075]
As described above, when the “automatic” mode is designated, the network scanning unit 14 checks whether or not the double-sided determination mark exists on the original, and determines whether the original is a double-sided original. Is determined, and control according to the determination result is performed on the scanner 12. When the “double-sided” or “single-sided” mode is designated, the network scanning unit 14 responds to the designated mode without investigating whether or not a double-sided mark exists on the document. Is performed on the scanner 12.
[0076]
Then, the network scanning unit 14 stores image data that does not include the double-sided determination mark in the PC, regardless of which processing mode is specified.
[0077]
Therefore, if the network scanning unit 14 is used in an environment in which all documents are printed or copied using the copy system 10, it is possible to prevent only one side of a double-sided document from being converted into digital data. You can do it. Further, since the image data stored in the PC by the network scanning unit 14 does not include data relating to the double-sided determination mark, the image data is processed when the image data is processed or when the image data is used as OCR data. In other words, there is no need to remove the data relating to the double-sided determination mark. When the printer 13 performs the double-sided printing based on the image data, a double-sided printing mark is added by the printer 13, so that the printed matter based on the image data can be copied in the “automatic” mode, the original digitally printed. It does not become unsuitable for printing (though it is a double-sided printed matter but has no double-sided determination mark on the surface).
[0078]
<Modification>
The above-described copy system 10 can perform various modifications. For example, a function as the network scanning unit 14 may be added to the copy operation unit 11. Further, in the copy system 10 described above, when copying or digitizing a two-sided document in which the two-sided determination mark is not drawn in the “automatic” mode, it is determined that the document is a one-sided document and the copying or digitizing is performed. However, in order to prevent copying or digitization of a two-sided document on which the two-sided determination mark is not drawn as a one-sided document, a document on which the two-sided determination mark is not drawn in the "automatic" mode is used. When a document is found, processing for confirming the document type (processing for displaying information for that on the touch screen 21 and the liquid crystal panel 31 and waiting for the user to specify the document type) is performed. The copy system 10 may be configured.
[0079]
Further, the printer 13 used in the copy system 10 has a function of adding a double-sided determination mark, but the printer 13 does not have such a function (a normal printer is used as the printer 13). ), The printer driver installed in the PC and the copy operation unit 11 may be configured to generate data for rendering a double-sided determination mark. Further, the scanner 12 itself may be provided with a function of determining whether a document is a double-sided document or a single-sided document based on the presence or absence of the double-sided determination mark.
[0080]
【The invention's effect】
According to the present invention, it is possible to realize an environment in which it is possible to prevent only one side of a two-sided original from being copied or converted into digital data.
[Brief description of the drawings]
FIG. 1 is an external view of a copy system according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram of a configuration and a use form of a copy system according to the embodiment.
FIG. 3 is an external view of a copy operation unit included in the copy system according to the embodiment.
FIG. 4 is an explanatory diagram of a basic operation screen displayed on a copy operation unit.
FIG. 5 is an explanatory diagram of a copy mode selection screen displayed on the copy operation unit.
FIG. 6 is a flowchart of a copy control process executed when an “automatic” mode is designated in the copy operation unit.
FIG. 7 is a flowchart of a document digitizing process executed when an “automatic” mode is designated in the network scanning unit included in the copy system according to the embodiment;
FIG. 8 is a flowchart of a document digitizing process executed when a “single-sided” mode is designated in the network scanning unit.
FIG. 9 is a flowchart of a document digitizing process executed when a “double-sided” mode is designated in the network scanning unit.
[Explanation of symbols]
10. Copy system
11 Copy operation unit
12 Scanner
13 Printer
14 Network Scanning Unit
21 Touch screen
22, 32 Start button
31 LCD panel
33 Menu related buttons

Claims (3)

If the printing device can be used as a network printer and double-sided printing is instructed, the specified content is printed on the front and back surfaces, and the predetermined content is determined at a predetermined position on the front surface. When the paper on which the mark is drawn is generated and one-sided printing is instructed, printing of the instructed content is performed on the front surface, and nothing is drawn at the predetermined position on the front surface. A printing device for generating paper;
  Image data generating means for generating image data representing an image on the supplied document;
  Document holding means capable of holding a plurality of documents,
  A function of supplying one or more originals held by the original holding unit to the image data generating unit one by one, a function of discharging the original supplied to the image data generating unit, and a function of Document transport means having a function of turning over the supplied document and supplying the image data to the image data generating means,
  For each document held in the document holding means, the image data generating means causes the image data generating means to generate image data of an image on the document, and based on the image data generated by the image data generating means, It is determined whether or not the double-sided determination mark is present at the predetermined position. If the double-sided determination mark is not present at the predetermined position, the document is discharged by the document conveying means, When the double-sided determination mark is present at the position, the document is turned over by the document feeder and supplied to the image data generator, and the image data on the back side of the document is generated by the image data generator. Reading control means for discharging the original to the original transport means,
  When the reading control unit determines that the double-sided determination mark does not exist at the predetermined position, the reading control unit causes the printing apparatus to execute one-sided printing based on the image data generated by the image data generating unit, and performs the reading control. Print control means for causing the printing apparatus to perform double-sided printing based on the image data for two pages generated by the image data generation means when the means determines that the double-sided determination mark exists at the predetermined position.
  And a copy system comprising: Printing execution means capable of performing double-sided printing and single-sided printing,
Image data generating means for generating image data representing an image on the supplied document,
Document holding means capable of holding a plurality of documents,
A function of supplying one or more originals held by the original holding unit to the image data generating unit one by one, a function of discharging the original supplied to the image data generating unit, and a function of Document transport means having a function of turning over the supplied document and supplying the image data to the image data generating means,
For each document held in the document holding means, the image data generating means causes the image data generating means to generate image data of an image on the document, and based on the image data generated by the image data generating means, in position, the visual determines whether the double-sided determination mark forms whose presence is unknown little is present, when the double-sided criterion marks in the predetermined position is not present, the document conveying means When the double-sided determination mark is present at the predetermined position, the document is turned over by the document conveying means and supplied to the image data generating means. Read control means for causing the image data generation means to generate the document, and then discharging the document to the document conveyance means,
If the reading control unit determines that the double-sided determination mark does not exist at the predetermined position, the reading control unit causes the print execution unit to execute single-sided printing based on the image data generated by the image data generation unit, and performs the reading. When the control unit determines that the double-sided determination mark exists at the predetermined position, the double-sided determination mark is redrawn based on the image data of two pages generated by the image data generation unit. A print control unit for causing the print execution unit to execute double-sided printing in a form . Copy system according to claim 1, wherein both surfaces determination mark, the visual, wherein <br/> be marked in such a form that there is not known almost the printing apparatus is drawn.

Images