JP2021078083A - Information processor and control method thereof - Google Patents

Abstract

To provide a technique capable of executing inspection on both faces of a sheet even when an image is printed on only one side of the sheet.SOLUTION: An information processor, in inspecting an appearance quality of printed matter on the basis of comparison of a scan image obtained by scanning printed matter to a reference image, determines the appearance quality of the printed matter using scan images of both faces when both faces of the printed matter are printed and when one side of the printed matter is printed, switches whether a scan image of only one side is used or whether scan images of both sides are used to inspect the appearance quality of the printed matter.SELECTED DRAWING: Figure 5

Description

The present invention relates to a technique for inspecting the quality of printed matter in a printing apparatus.

An inspection device that reads a printed matter printed by a printing device and inspects the quality is known. The inspection device can detect image defects such as stains and print omissions, character errors, and barcode quality.

On the other hand, a printing device capable of printing on both sides of paper has been conventionally known. Such a printing device is provided with a transport path for reversing the paper in the machine, and can print an image on both sides of the paper. When such printed matter is subject to inspection, the inspection device is required to inspect the images printed on both sides of the paper.

In order to solve such a problem, a technique for inspecting an image printed on both sides of a paper is disclosed (Patent Document 1).

Japanese Patent No. 4701612

However, in the prior art, a mechanism is adopted in which only one side is inspected during single-sided printing and both sides are inspected during double-sided printing. That is, only the printed surface is considered to be inspected. Therefore, for example, even when inspecting high-quality printed matter (printed matter for which the quality of the back side is to be guaranteed) for which it is desired to check whether or not stains are attached to the back side even in single-sided printing, double-sided inspection cannot be performed. ..

Therefore, an object of the present invention is to provide a technique capable of performing an inspection on both sides of a paper even when an image is printed on only one side of the paper.

In order to solve the above problems, the information processing device of the present invention is an information processing device that inspects the quality of the printed matter based on the comparison between the scanned image obtained by scanning the printed matter and the reference image, and the printed matter has both sides. The first determination means for determining whether the printed matter is printed or single-sided printing, and when it is determined that double-sided printing is performed, the quality of the printed matter is determined using the scanned images on both sides, and the printed matter is printed on one side. When it is determined that the printed matter is inspected, it is characterized by having an inspection means for inspecting the quality of the printed matter by switching between using a scanned image of only one side and using a scanned image of both sides.

According to the present invention, even when an image is printed on only one side of the paper, it is possible to perform an inspection on both sides of the paper.

The schematic diagram which shows the structure of the information processing apparatus, inspection apparatus, and printing apparatus in embodiment. The block diagram which shows the structure of the information processing apparatus, inspection apparatus, and printing apparatus in embodiment. The figure which shows the internal structure of the information processing apparatus, the inspection unit, the printing apparatus, and a large-capacity stacker in an embodiment. An example of the inspection setting screen in the embodiment. The operation flowchart at the time of inspection of the inspection apparatus in Embodiment 1. The operation flowchart at the time of inspection of the inspection unit in Embodiment 1. The operation flowchart of the inspection apparatus in Embodiment 1. The operation flowchart at the time of inspection of the inspection apparatus in Embodiment 2. The operation flowchart at the time of inspection of the inspection unit in Embodiment 2. The operation flowchart of the inspection apparatus in Embodiment 2. An example of a table used to determine whether to perform double-sided inspection.

<First Embodiment>
Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. It goes without saying that the present invention can be applied to a single device or an inspection device composed of a plurality of devices as long as the functions according to the present invention are realized unless otherwise specified. Further, unless otherwise specified, if the function of the present invention is realized, it is an inspection device that is connected and processed via a network such as LAN (Local Area Network) or WAN (Wide Area Network). You may. That is, the system configuration in which various terminals described in the following embodiments are connected is an example, and it goes without saying that there are various configuration examples depending on the application and purpose.

FIG. 1 is a schematic diagram showing the configuration of an information processing device, an inspection device, and a printing device in the inspection system according to the present embodiment. Although the printing device of the present embodiment will be described using an electrophotographic printing device, the printing device of the present embodiment may be a printing device of a different image forming method such as an inkjet method or an offset method.

The printing device 0101 is connected to the information processing device 0109 via a cable 0112. The information processing device 0109 is connected to the client computer 0110 and the inspection device 0108 via the network 0113.

The printing device 0101 includes a UI panel 0102, a paper feed deck 0103, and a paper feed deck 0104. Further, an option deck 0105 composed of a three-stage paper feed deck is connected. The printing device 0101 is, for example, an electrophotographic printing device. Further, the UI panel 0102 is a user interface including, for example, a capacitance type touch panel.

Further, the printing apparatus 0101 includes an inspection unit 0106 and a large-capacity stacker 0107. The inspection unit is connected to the inspection device 0108 via a cable 0114. The large-capacity stacker 0107 includes a main tray and a top tray, and the main tray can load thousands of sheets at a time.

The print job is generated by the client computer 0110, transmitted to the information processing device 0109 via the network 0113, and managed by the information processing device 0109. Then, the print job is transmitted from the information processing device 0109 to the printing device 0101 through the cable 0112, and the printing device 0101 performs a process of printing on paper. The print job may be generated and managed by the information processing device 0109, transmitted to the printing device 0101 via the network 0112, and managed by the printing device 0101.

The client computer 0110, the information processing device 0109, and the inspection device 0108 may be connected to the cable 0112 and can communicate with the printing device 0101. That is, the connection form of the printing device 0101, the information processing device 0109, and the client computer 0110 shown in this embodiment is an example, and it goes without saying that there are various connection forms other than those shown in this embodiment.

FIG. 2 is a block diagram showing a control configuration of the printing device 0101, the inspection device 0108, the large-capacity stacker 0107, the information processing device 0109, and the client computer 0110 according to the present embodiment.

The CPU (Central Processing Unit) 0201 controls and performs calculations in each part of the printing device 0101 via the system bus 0212. The CPU 0201 controls the execution of a program stored in the storage unit 0205 and loaded into the RAM (Random Access Memory) 0202. The RAM 0202 is a kind of general volatile storage device that can be directly accessed from the CPU 0201, and is used as a work area of the CPU 0201 or other temporary data storage area. The storage unit 0205 functions as a temporary storage area and a work memory when the printing apparatus operates.

The engine I / F0209 controls communication and control with the printer engine 02010. The paper feed deck I / F 0204 controls communication and control with the paper feed deck 0211. The paper feed deck 0211 is a general term for the paper feed decks 0103 and 0104 and the option deck 0105 as a hardware configuration. The UI panel 0203 is a hardware configuration of the UI panel 0102, and is a user interface for performing general operations of the printing device 0101. In the present embodiment, the UI panel 0203 is provided with a capacitance type touch panel.

The network interface (hereinafter, NW I / F) 0207 is connected to the NW I / F0238 of the information processing device 0109 via a cable 0213, and controls communication between the information processing device 0109 and the printing device 0101. In this example, the interfaces connected to the system buses 0212 and 0239 are directly connected to each other, but the information processing device 0109 and the printing device 0101 may be connected to each other by, for example, a network. The format is not limited. The video I / F 0206 is connected to the video I / F 0233 via a video cable 0241 and controls the communication of image data between the information processing device 0109 and the printing device 0101.

The connection interface of the information processing device 0109 with the printing device 0101 may take a form in which the functions of the NWI / F0238 and the video I / F0233 are integrated. Further, the connection interface of the printing device 0101 with the information processing device 0109 may take a form in which the functions of the NWI / F0207 and the video I / F0206 are integrated.

The accessory I / F0208 is connected to the accessory I / F0214 and the accessory I / F0220 via a cable 0225. That is, the printing apparatus 0101 communicates with the inspection unit 0106 and the large-capacity stacker 0107 via the accessories I / F 0208, 0214, and 0220.

The CPU 0216 controls and calculates in each unit in the inspection unit 0106 via the system bus 0219, and controls execution of a program stored in the storage unit 0247 and loaded into the RAM 0217. The RAM 0217 is a type of general volatile storage device that can be accessed directly from the CPU 0216 and is used as a work area or other temporary data storage area of the CPU 0216. The storage unit 0247 functions as a temporary storage area and a work memory when the inspection device is operated. The inspection device I / F0215 is connected to the inspection device unit I / F0231 via a cable 0248. That is, the inspection unit 0106 communicates with the inspection device 0108 via the inspection device I / F 0215 and the inspection device unit I / F 0231.

The photographing unit 0218 has, for example, an imaging function equipped with a conduct image sensor (hereinafter, CIS), photographs the paper passing through the inspection unit, and transmits the captured image to the inspection device 0108 via the inspection device I / F 0215. To do. The CIS for the photographing unit 0218 is an example of a sensor, and may be another type of sensor such as a CCD image sensor, and the photographing method is not limited.

The CPU 0220 is responsible for controlling and calculating in each unit in the large-capacity stacker 0107 via the system bus 0224, and executing a program stored in the storage unit 0248 and loaded in the RAM 0222. The RAM 0222 is a type of general volatile storage device that can be accessed directly from the CPU 0221 and is used as a work area or other temporary data storage area of the CPU 0221. The storage unit 0248 functions as a temporary storage area and a work memory when the inspection device is operated. The paper ejection unit 0223 controls the paper ejection operation to the main tray and the top tray, and the monitoring and control of the loading status of each of the main tray and the top tray.

The CPU 0226 controls and calculates in each unit in the inspection device 0108 via the system bus 0230, and controls execution of a program stored in the storage unit 0228 and loaded into the RAM 0227. The RAM 0227 is a type of general volatile storage device that can be accessed directly from the CPU 0226 and is used as a work area or other temporary data storage area of the CPU 0226. The storage unit 0228 functions as a temporary storage area and a work memory when the inspection device is operated. The PDL analysis unit 0229 reads PDL data such as PDF, PostScript, and PCL received from the client computer 0110 or the information processing device 0109, and executes the interpretation process. The display unit 0245 is, for example, a liquid crystal display connected to the inspection device, and receives user input to the inspection device, displays the state of the inspection device, and controls the display. The CPU 0234 controls and calculates in each unit in the information processing apparatus 0109 via the system bus 0239, and controls execution of a program stored in the storage unit 0236 and loaded into the RAM 0235. The RAM 0235 is a type of general volatile storage device that can be accessed directly from the CPU 0234 and is used as a work area or other temporary data storage area of the CPU 0234. The storage unit 0236 functions as a temporary storage area and a work memory when the information processing device is operating. The network interface (hereinafter, NW I / F) 0237 is connected to the NW I / F 0232 and 0240 via a network. The information processing device 0109 communicates with the inspection device 0108 via NW I / F0237 and NW I / F0232. Further, the information processing device 0109 communicates with the client computer 0110 via NWI / F0237 and NWI / F0240.

The CPU 0243 controls and calculates in each unit in the client computer 0110 via the system bus 0246, and controls the execution of a program stored in the storage unit 0245 and loaded into the RAM 0242. The RAM 0242 is a kind of general volatile storage device that can be directly accessed from the CPU 0243, and is used as a work area of the CPU 0243 or other temporary data storage area. The storage unit 0244 functions as a temporary storage area and a work memory when the client computer is operating.

FIG. 3 is a diagram showing the internal configurations of the printing apparatus 0101, the inspection unit 0106, and the large-capacity stacker 0107. The printing device 0101 accepts user input via the UI panel 0102, prints, and displays the state of the device. Various types of paper can be stored in the paper feed decks 0103 and 0104. In each paper feed deck, it is possible to separate only one sheet of the topmost sheet of the stored paper and transport it to the paper transport path 0305. 0301 to 0304 are developing stations, and in order to form a color image, a toner image is formed using colored toners of Y, M, C, and K, respectively. The toner image formed here is primarily transferred to the intermediate transfer belt 0306. The intermediate transfer belt 0306 rotates the figure clockwise, and the toner image is transferred to the paper transferred from the paper transfer path 0305 at the secondary transfer position of 0307. The fixing unit 0308 includes a pressure roller and a heating roller, and the paper passes between the rollers to melt and crimp the toner to fix the toner image on the paper. The paper that has passed through the fixing unit 0308 is transported to 0312 through the paper transport path 0309. If further melting / crimping is required for fixing depending on the type of paper, after passing through the fixing unit 0308, it is conveyed to the second fixing unit 0310 using the paper transport path above, and additional melting / crimping is performed. After being applied, it is transported to 0321 through the paper transport path 0311. When the image formation mode is double-sided, the paper is conveyed to the paper inversion pass of 0313, inverted at 0313, and then the paper is conveyed to the double-sided transfer pass 0314, and the image transfer of the second side is performed at the secondary transfer position 0307. Will be done.

CIS0315 and 0316 are arranged in the inspection unit 0106 so as to face each other. CIS0315 is a sensor for reading the upper surface of the paper, and CIS0316 is a sensor for reading the lower surface of the paper. The inspection unit 0106 scans the paper using CIS0315 and 0316 at the timing when the paper conveyed to the paper transfer path 0317 reaches a predetermined position. The scanned image is transmitted to the inspection device 0108 via the inspection device I / F0215 and the inspection unit I / F0231. The CPU 0226 determines whether or not the received image is defective, and notifies the inspection unit 0106 of the determination result again via the inspection unit I / F0231 and the inspection device I / F0215. The CPU 0216 notifies the large-capacity stacker 0107 of the received determination result via the accessories I / F 0214 and 0220.

0107 is a large-capacity stacker capable of loading a large-capacity paper. The large-capacity stacker 0107 has a main tray 0324 as a tray for loading paper. The paper that has passed through the inspection unit 0106 enters the large-capacity stacker 0107 through the paper transport path 0319. Paper is loaded on the main tray 0324 from the paper transport path 0319 via the sheet transport path 0322. Further, the large-capacity stacker 0107 has a top tray 0320 as a paper output tray. The CPU 0221 ejects the paper whose defect is detected by the inspection device 0108 to the top tray 0320. When outputting to the top tray 0320, the paper is transported from the paper transport path 0319 to the top tray 0320 via the paper transport path 0321. 0323 is a reversing part for reversing the sheet. The reversing section 0323 is used when the paper is loaded on the main tray 0324. When loading on the main tray 0324, the reversing section 0323 reverses the paper once so that the orientation of the incoming paper and the orientation of the paper at the time of loading are the same. When transporting to the top tray 0320, the sheet is ejected as it is without flipping at the time of loading, so that the reversing unit 0323 does not perform the reversing operation.

FIG. 4 is a diagram showing an inspection setting screen. The inspection setting screen is a screen for inspecting and setting the surface on which the image is printed. Therefore, in the case of double-sided printing, the inspection setting screen is displayed on the front side and the back side to make settings. In the case of single-sided printing and single-sided inspection, the inspection setting screen is displayed for one side and settings are made. Further, in the case of single-sided printing and double-sided inspection, the inspection setting screen is displayed and the setting is performed only on the side on which the image is printed. The inspection setting screen 0401 includes a menu bar 0402, an inspection standard confirmation button 0403, and an inspection parameter setting unit 0404. Further, the inspection parameter setting unit 0404 includes a color change pull-down 0405 for inspection parameters. On the inspection setting screen 0401, a reference image already registered in the inspection job to which the inspection setting is applied is displayed.

The menu bar 0402 includes a button for replacing the already registered reference image. Further, the menu bar 0402 is a button for switching the mouse pointer (not shown) for which the display unit 0245 receives an instruction from the user at its coordinates to grab or pointer, and selecting the shape of the inspection area described later to be rectangular or elliptical. To be equipped with. The menu bar 0402 also includes buttons for "undoing" and "redoing" the executed processing, and buttons for executing duplication, cutting, pasting, and deleting of the inspection area. In addition, it also has buttons for changing the zoom magnification and fitting the displayed image to the screen.

The inspection parameter setting unit 0404 accepts the misalignment setting and the inspection parameter setting from the user. The misalignment in the misalignment setting is a permissible value of the misalignment, and this permissible value can be set by the user. FIG. 4 shows a setting that allows the position deviation in the paper transport direction to be up to 1 mm as the “positional deviation (vertical)” and the position deviation in the main scanning direction to be 2 mm as the “positional deviation (horizontal)”. The printing device 0101 may cause a transfer shift that occurs during paper transport, or a slight shift in the image printing position with respect to each paper. In order to avoid such misalignment and lowering the inspection accuracy, a permissible value of misalignment is defined.

In addition, in the inspection parameter setting, you can browse the inspection level of circular defects and streaks for each inspection standard ("important", "standard"), and change the inspection level in the combo box. It is possible. In the present embodiment, the inspection levels are defined as 7, 6, 6, 5, 4, 3, 2, 1 in the order of stricter inspection. Therefore, "important" and "standard" are set so that the inspection levels are not reversed. And. This can be achieved, for example, by changing the display so that when inspection level 5 is selected in "standard", only inspection level 7 or 6 can be selected in "important". In this embodiment, a fixed inspection level is internally used for the inspection standard "exclusion", and a combo box for selection is not provided.

Further, the color change pull-down 0405 of the inspection parameter can change the color of the frame of the inspection area to which the corresponding inspection standard is applied. When the color change pull-down 0405 of the inspection parameter is clicked, for example, a color selection menu (not shown) opens, and the display unit 0245 accepts the color change by the user depending on the presented options. In FIG. 4, it is shown that the inspection criterion “important” is selected by highlighting the “important” option.

The inspection setting screen 0401 further includes a "cancel" button 0407 for canceling the setting and a "done" button 0406 for ending the setting.

FIG. 5 is an operation flowchart of the inspection device 0108 at the time of inspection.

In S0501, the CPU 0226 receives an image reading start instruction from the user via the display unit 0245. In S0513, the CPU 0226 acquires the print job information. Obtained from information processing device 0109 or printing device 0110. The print job information includes information on double-sided printing or single-sided printing and information on paper used for printing. Next, the process proceeds to S0502, and if there is a sheet to be inspected, the process proceeds to S0503.

In S0503, the inspection unit I / F0231 receives (acquires) an image scanned by CIS0315 and CIS0316 from the inspection device I / F0215. In S0514, the CPU 0226 uses the print job information to determine whether or not to print on both sides. If it is determined in S0514 that the printing is double-sided, the process proceeds to S0507, and if it is determined that the printing is single-sided, the process proceeds to S0504. In S0504, the CPU 0226 determines whether or not the paper to be inspected should be inspected on both sides. FIG. 11 is an example of a table used when determining whether to perform double-sided inspection. The table is stored in the storage unit 0228 of the inspection device 0108. FIG. 11A is an example of a table showing whether or not to perform double-sided inspection for each type of paper used for printing. This table shows that even if it is single-sided printing, double-sided inspection is performed when printing on thick paper, label paper, or postcard. Further, in the case of single-sided printing, it is shown that only the side to be printed on one side is inspected when printing on plain paper or recycled paper. In the present embodiment, it is required that there are no image defects including the front surface and the back surface of label paper, cardboard, postcards, and the like. Therefore, it is determined that these sheets should be inspected on both sides even if they are printed on one side.

If it is determined in S0504 that double-sided inspection should be performed, the process proceeds to S0507. In S0507, the CPU 0226 compares the reference image for both sides stored in the RAM 0227 with the scanned image for both sides to be inspected received in S0503.

This reference image is obtained by scanning the paper printed by the printing device 0101 with the CIS 0315 and 0316 in advance before the start of the main flow, transmitting the reference image from the inspection device I / F 0215 to the inspection unit I / F 0231, and storing the reference image in the RAM 0227. To do. In this comparison operation, first, a characteristic point of the image is used as a reference point for alignment, and the image position of the reference image and the scanned image to be inspected is aligned. Next, in the scanned image to be inspected, the four corners of the paper and the alignment reference point of the scanned image are analyzed to detect whether the image is misaligned with respect to the paper. Next, the density values of the reference image and the scanned image to be inspected are compared for each pixel. As a result of the above, if no defect is detected, the inspection result is OK.

Next, in S0508, if the inspection results are OK on both sides, the process proceeds to S0510, and the inspection unit I / F0231 discharges the inspection results to the inspection device I / F0215, that is, the large-capacity stacker 0107 is discharged to the main tray 0324. Instruct. Then, the process proceeds to S0511, and S0502 to S0511 are repeated until the inspection of all the sheets is completed. When the inspection of all the sheets is completed, the process proceeds to S0512, and the CPU 0226 receives an instruction from the user to finish reading the image on the display unit 0245.

In S0508, if the inspection result is NG on one of both sides, the process proceeds to S0509. In S0509, the inspection unit I / F0231 instructs the inspection device I / F0215 to discharge the inspection result NG, that is, the large-capacity stacker 0107 to the top tray 0320. Then, the process proceeds to S0511, and thereafter, the process can be completed in the same manner as in the case where the above-mentioned inspection result is OK.

If it is determined in S0504 that the CPU 0226 does not inspect both sides of the paper to be inspected, that is, the inspection is performed on only one side, which is the printed side, the process proceeds to S0505. In S0505, the CPU 0226 compares the reference image for one side stored in the RAM 0227 with the scanned image for one side to be inspected received in S0503. At this time, the scanned image on the other side that is not inspected by the CPU 0226 is deleted from the RAM 0227. Next, the process proceeds to S0506, if the test result is OK, the process proceeds to S0510, and if the test result is NG, the process proceeds to S0509, and the process is terminated in the same manner as described above.

The example shown here is an example. For example, the user's image reading start instruction on the display unit 0245 is automatically executed in conjunction with the printing start instruction on the printing device 0101, the information processing device 0109, or the client computer 0110. You may. Further, the user's image reading end instruction on the display unit 0245 may be automatically executed in conjunction with the printing end on the printing device 0101.

FIG. 6 is an operation flowchart of the inspection unit 0106 at the time of inspection.

When printing is started by the printing apparatus 0101, the flowchart of FIG. 6 is started. If there is a sheet to be inspected in S0602, the process proceeds to S0603.

In S0603, the image printed on the paper on which CIS0315 and CIS0316 have been conveyed is scanned. Next, the process proceeds to S0604, and the inspection device I / F0215 transmits the image scanned by S0603 to the inspection unit I / F0231.

Next, the process proceeds to S0605, and when the inspection device I / F0215 receives the inspection result from the inspection unit I / F0231, the process proceeds to S0606. If the inspection result is OK, the process proceeds to S0607, and the accessory I / F0214 instructs the accessory I / F0220 to eject the paper on which the image scanned by S0603 is printed to the main tray 0324 of the large-capacity stacker 0107. To do. Then, the process proceeds to S0608, and S0602 to S0608 are repeated until the inspection of all the sheets is completed. When the inspection of all the sheets is completed, that is, the printing is also completed, the process is completed.

If the inspection result is NG in S0606, the process proceeds to S0609, and the accessory I / F0214 ejects the paper on which the image scanned by S0603 is printed to the accessory I / F0220 to the top tray 0320 of the large-capacity stacker 0107. Instruct to print. After that, the process proceeds to S0608, and the process can be completed in the same manner as in the case where the above-mentioned inspection result is OK.

In S0605, if the inspection result is not received for some reason, such as the inspection device 0108 side is not in the inspection state or the calculation of the inspection device 0108 is not in time, the process proceeds to S0609. At this time, the CPU 0216 notifies the accessory I / F 0214 of the discharge to the top tray 0320 so that the deliverables whose inspection results are OK and the deliverables which could not be inspected are not mixed. Then, the accessory I / F0214 instructs the accessory I / F0220 to discharge the paper as it is to the paper ejection destination specified in the print job, and proceeds to S0608. After that, the process can be completed in the same manner as when the above-mentioned inspection result is received.

Hereinafter, the processing characteristic of this embodiment will be described with reference to the flowchart.

The program of the printing device according to this flow is stored in the storage unit 0205 of the printing device 0101, read into the RAM 0202, and executed by the CPU 0201. Further, the program of the inspection device according to this flow is stored in the storage unit 0228 of the inspection device 0108, is read out by the RAM 0227, and is executed by the CPU 0226. Further, the program of the information processing device according to this flow is stored in the storage unit 0236 of the information processing device 0109, read into the RAM 0235, and executed by the CPU 0234. Further, the client computer program related to this flow is stored in the storage unit 0245 of the client computer 0110, read into the RAM 0242, and executed by the CPU 0243.

First, in S0701, the CPU 0226 creates an inspection job. An inspection job is a unit of records that holds information related to inspection such as a reference image, the number of inspection sheets, and inspection settings. Next, the process proceeds to S0702, and the display unit 0245 receives a reading start instruction from the user via a reading instruction button (not shown). Then, the process proceeds to S0703, and the inspection unit I / F0231 receives the image printed by the printing device 0101 from the inspection device I / F0215 and scanned by CIS0315 and CIS0316. In S0704, the CPU 0226 acquires the print job information acquired by the CPU 0234 from the RAM 0235 via the NWI / F0232 and 0237. The print job information includes information indicating whether it is double-sided printing or single-sided printing. As a result, the CPU 0226 can grasp whether the paper currently being read as an image is single-sided printing or double-sided printing. Further, in the present embodiment, the information of the print job also includes the information of the paper used for printing. After the start of printing in the printing apparatus 0101, S0703 and S0704 may be processed in the reverse order, and the processing form is not limited. Further, the print job information of single-sided printing or double-sided printing may be notified to the inspection device 0108 by, for example, the printing device 0101 acquiring the information from the client computer 0110 or the information processing device 0109. Further, the print job may be generated by the printing device 0101, and the information may be notified to the inspection device 0108 as it is.

In S0705, the CPU 0226 determines whether or not double-sided printing is performed by using the information of the print job. If it is determined to be double-sided printing, the process proceeds to S0706. At this time, the CPU 0226 scans with CIS0315 and 0316, is transmitted from the inspection device I / F0215 to the inspection unit I / F0231, and holds the images for both sides stored in the RAM 0227. Next, the process proceeds to S0707, and the CPU 0226 displays images for both sides as a target on the reference image registration screen (not shown) for displaying the image used as the inspection standard for this inspection job and the inspection setting screen shown in FIG. Display unit 0245 is set.

After that, the process proceeds to S0712, and the CPU 0226 accepts an input of approval that the user uses the images for both sides as the reference image on the reference image registration screen (not shown). Then, the process proceeds to S0713, and the CPU 0226 accepts the inspection settings for both sides on the inspection setting screen 0401 via the display unit 0245. Then, the process proceeds to S0714, the inspection is executed using the registered reference image, and the process is completed.

In S0705, when the CPU 0226 receives the information of single-sided printing, the process proceeds to S0708. In S0708, the CPU 0226 determines whether double-sided inspection should be performed, and if it is determined that double-sided inspection should be performed, the process proceeds to S0709. S0705 is determined in the same manner as S0504 described above. In the present embodiment, it is required that there are no image defects including the front surface and the back surface of label paper, cardboard, postcards, and the like. Therefore, it is determined that these sheets should be inspected on both sides even if they are printed on one side.

In S0709, the CPU 0226 scans with CIS0315, 0316, is transmitted from the inspection device I / F0215 to the inspection unit I / F0231, and holds the images for both sides stored in the RAM 0227. Next, the process proceeds to S0711, and the CPU 0226 displays an image of only one side as a target on the reference image registration screen (not shown) for displaying the image used as the inspection standard of this inspection job and the inspection setting screen shown in FIG. Display unit 0245 is set. Since this is single-sided printing, there is no print data on the second side, and since it is a blank sheet, the reference image can be registered for the second side without any trouble for the user, and double-sided inspection can be performed. Is.

If there is no print data on the second surface and, for example, the same paper has been used in the past, the CPU 0226 may read the reference image used in the past from the RAM 0227 and use it. In the case of blank paper without print data, the reference image is determined by the color and thickness of the paper depending on the paper type. Alternatively, a reference image may be registered in advance for each paper type, and the reference image may be read out and used using the information on the paper type.

After that, the process proceeds to S0715, and the CPU 0226 determines whether or not the double-sided inspection should be performed. If it is determined that the double-sided inspection should be performed, the process proceeds to S0712, and the process is terminated in the same manner as described above. S0715 may perform the same processing as S0708, or may hold the determination result of S0708 and use the determination result. In any case, the determination result in S0715 matches the determination result in S0708. Further, when proceeding from S0715 to S0712, the reference image of the surface on which the image is not printed is registered without displaying the reference image registration screen (not shown) on the display unit 0245. Further, when proceeding to S0713, the CPU 0226 displays only the inspection setting screen 0601 on the surface on which the image is printed on the display unit 0245, and does not display the inspection setting screen 0601 on the display unit 0245 on the surface on which the image is not printed. Further, the CPU 0226 is set to inspect, for example, a surface on which an image is not printed by using a preset inspection level. It is desirable to set the inspection level for the surface on which the image is not printed low and set it lower than the inspection level for the surface on which the image is printed. This is because if the inspection level is set high when inspecting the surface on which the image is not printed, erroneous detection will occur in which the fibers of the paper are judged to be stains.

If the CPU 0226 determines in S0708 that only one side should be inspected, the process proceeds to S0710. In S0710, the CPU 0226 scans with CIS0315 and 0316, is transmitted from the inspection device I / F0215 to the inspection unit I / F0231, and holds a one-sided image stored in the RAM 0227. After that, the process proceeds to S0715, and when the CPU 0226 determines that only one side should be inspected, the process proceeds to S0716, and the user accepts the input of approval that the image for one side is used as the reference image on the reference image registration screen (not shown). Then, the process proceeds to S0717, and the CPU 0226 accepts the inspection setting for only one side on the inspection setting screen 0401 via the display unit 0245. Then, the process proceeds to S0714, and the CPU 0226 inspects in S0714 and ends the process in the same manner as in the above procedure.

In the present embodiment, an example of using the table of FIG. 11A is shown when determining S0504 and S0708, but the table of FIG. 11B may be used. FIG. 11B is an example of a table showing whether or not to perform double-sided inspection for each type of deliverable. FIG. 11B shows that even in single-sided printing, if the deliverable is a stamp, a postcard, or a package, double-sided inspection is performed. This is because if the deliverable is a stamp, postcard, or package, it is often treated as a commodity. In addition, in single-sided printing, when the deliverable is in-house printing, it is shown that only the side to be printed on one side is inspected. When the determination is made using the table of FIG. 11B, the print job information includes the information of the deliverable, and the determination is made using the information of the deliverable.

Further, the determination of S0504 and S0708 may be confirmed by the user without using the table of FIG. In that case, only when it is determined that single-sided printing is performed, a screen for confirming whether to perform double-sided inspection or single-sided printing is displayed. The UI 0226 may accept the user's selection by displaying the UI (not shown) selected by the user on the display unit 0245.

In the present embodiment, an example in which the inspection items are not changed between the case of double-sided inspection by double-sided printing and the case of double-sided inspection by single-sided printing has been described. Or, the inspection item may be changed depending on the inspection of the surface on which the image is not printed. Specifically, in the case of inspection of the surface on which the image is not printed, the inspection of the misalignment is not performed.
According to the above procedure, according to the present embodiment, when executing the inspection with the inspection device, the double-sided inspection is executed for double-sided printing, and the double-sided inspection or the single-sided inspection is switched depending on the conditions for single-sided printing. be able to. As a result, even if there is a surface on which data is not printed by single-sided printing, high-precision inspection can be realized in order to create a high-quality printed matter according to the deliverable.

<Second embodiment>
In the first embodiment, regardless of whether it is double-sided printing or single-sided printing, both CIS0315 and 0316 are used to acquire double-sided images, and when only one side is inspected by single-sided printing, the single-sided image is discarded from RAM0227. Was there. In the present embodiment, when performing an inspection on only one side in single-sided printing, an embodiment in which only one-sided images are scanned from the beginning will be described. In the case of single-sided inspection, scanning with only one CIS has the effect of reducing the load of transmitting and receiving unused images and extending the life of CIS parts.

In the present embodiment, when performing a single-sided inspection in single-sided printing, a flow of scanning only one-sided images from the beginning will be described. In this embodiment, only the differences from the first embodiment will be described, and duplicate explanations may be omitted.

FIG. 8 is an operation flowchart of the inspection device 0108 at the time of inspection.

If the CPU 0226 specifies the inspection of both sides of the paper to be inspected in S0504, the process proceeds to S0801. In S0801, the CPU 0226 instructs the inspection device I / F 0215 from the inspection unit I / F 0231 to scan with both CIS 0315 and CIS 0316. Next, the process proceeds to S0507, and the process is terminated in the same manner as in the first embodiment thereafter.

If the CPU 0226 specifies the inspection of only one side of the paper to be inspected in S0504, the process proceeds to S0802. In S0802, the CPU 0226 instructs the inspection device I / F 0215 from the inspection unit I / F 0231 to scan with only one of CIS 0315 and CIS 0316. Next, the process proceeds to S0505, and thereafter, the process is completed in the same manner as in the first embodiment.

FIG. 9 is an operation flowchart of the inspection unit 0106 at the time of inspection.

In S0904, the CPU 0216 acquires the print job information. Proceed to S0602, and if there is a sheet to be inspected, proceed to S0905. In S0905, the CPU 0216 determines whether or not to print on both sides by using the print job information. If it is determined to be double-sided printing, the process proceeds to S0902, and if it is determined to be single-sided printing, the process proceeds to S0901.

In S0901, if the CPU 0216 is instructed by the CPU 0226 to acquire a double-sided image via the inspection device I / F 0215 and the inspection unit I / F 0231, the process proceeds to S0902. In S0902, the image printed on the paper on which CIS0315 and CIS0316 have been conveyed is scanned. Next, the process proceeds to S0604, and the process is terminated in the same manner as in the first embodiment thereafter.

In S0901, if the CPU 0216 is instructed by the CPU 0226 to acquire an image of only one side via the inspection device I / F 0215 and the inspection unit I / F 0231, the process proceeds to S0903. In S0903, the image printed on the paper to which only one of CIS0315 and CIS0316 has been conveyed is scanned. Next, the process proceeds to S0604, and the process is terminated in the same manner as in the first embodiment thereafter.

Hereinafter, the processing characteristic of this embodiment will be described with reference to the flowchart.

The program of the printing device according to this flow is stored in the storage unit 0205 of the printing device 0101, read into the RAM 0202, and executed by the CPU 0201. Further, the program of the inspection device according to this flow is stored in the storage unit 0228 of the inspection device 0108, is read out by the RAM 0227, and is executed by the CPU 0226. Further, the program of the information processing device according to this flow is stored in the storage unit 0236 of the information processing device 0109, read into the RAM 0235, and executed by the CPU 0234. Further, the client computer program related to this flow is stored in the storage unit 0245 of the client computer 0110, read into the RAM 0242, and executed by the CPU 0243.

Since S0701 to S0708 are the same as those in the first embodiment, the description thereof will be omitted.

In S0705, when the CPU 0226 receives the information of double-sided printing, the process proceeds to S1001. In S1001, the CPU 0226 instructs the CPU 0216 to scan the images on both sides with the CIS 0315 and 0316 via the inspection device I / F 0215 and the inspection unit I / F 0231. Next, the process proceeds to S0707 and S0712, and the process is executed in the same manner as in the first embodiment. Then, in S1005, the CPU 0226 accepts an input of approval that the user uses the images for both sides as the reference image on the reference image registration screen (not shown). Next, the process proceeds to S0713, and thereafter, the process can be completed in the same manner as in the first embodiment.

In S0705, when the CPU 0226 receives the information of single-sided printing, the process proceeds to S0708. If the CPU 0226 determines in S0708 that both sides should be inspected, the process proceeds to S1002. In S1002, the CPU 0226 instructs the CPU 0216 to scan the images on both sides with the CIS 0315 and 0316 via the inspection device I / F 0215 and the inspection unit I / F 0231. Then, the process proceeds to S0711, and thereafter, the process is executed in the same manner as in the first embodiment until S0715.

In S0715, it is determined whether the CPU 0226 should perform double-sided inspection. S0715 may perform the same processing as S0708, or may hold the determination result of S0708 and use the determination result. If it is determined in S0715 that the double-sided inspection should be performed, the process proceeds to S0702, and thereafter, the process is terminated in the same manner as in the first embodiment.

If the CPU 0226 determines in S0715 that only one side should be inspected, the process proceeds to S0716, and then to S1004. In S1004, the CPU 0226 accepts an input of approval that the user uses the images for both sides as the reference image on the reference image registration screen (not shown). Next, the process proceeds to S0717, and thereafter, the process can be completed in the same manner as in the first embodiment.

If the CPU 0226 determines in S0708 that only one side should be inspected, the process proceeds to S1003. In S1003, the CPU 0226 instructs the CPU 0216 to scan the images on both sides with only one of the CIS 0315 and 0316 via the inspection device I / F 0215 and the inspection unit I / F 0231. At this time, which CIS to use may be fixed in advance, or may be determined based on the information of the print job received by the CPU 0226 in S0704. This is because the image side printed by single-sided printing is facing CIS0315 or 0316 depending on whether the front side or the back side of the paper is specified to be discharged at the output destination. This is because it depends on the type.

After that, the process proceeds to S0711, and the process proceeds from S0715 to S0716. Therefore, the process ends in the same manner as in the first embodiment.

According to the above procedure, according to the present embodiment, when the inspection is performed by the inspection apparatus, it is possible to change whether to scan by CIS depending on whether the inspection is double-sided printing or single-sided printing. As a result, when there is a side on which data is not printed in single-sided printing, image registration and inspection can be performed without retaining unnecessary scanned images. In addition, since the inspection can be performed without performing unnecessary CIS operations, the life of the parts can be extended.

(Other embodiments)
The present invention is also realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiment is supplied to the system or device via a network or various storage media, and the computer (or CPU or MPU) of the system or device reads the program. This is the process to be executed.

Claims (11)

An information processing device that inspects the quality of a printed matter based on a comparison between a scanned image obtained by scanning a printed matter and a reference image.
A first determining means for determining whether the printed matter is double-sided printed or single-sided printed,
If it is determined that the printed matter is printed on both sides, the quality of the printed matter is determined using the scanned image on both sides. If it is determined that the printed matter is printed on one side, the scanned image on only one side is used or both sides are used. An information processing device comprising an inspection means for inspecting the quality of the printed matter by switching whether to use the scanned image of the above. When it is determined that single-sided printing is performed, it has a second determination means for determining whether or not double-sided inspection should be performed.
The information processing apparatus according to claim 1, wherein the information processing apparatus according to claim 1 is characterized in that it switches between using a scan image of only one side and using a scan image of both sides based on the second determination result. The information processing apparatus according to claim 1, wherein the second determination means makes a determination based on the type of paper used for printing. The information processing device according to claim 1, wherein the second determination means determines based on the type of deliverable. The inspection means is determined to be printed on one side, and when inspecting using scanned images on both sides, the inspection item on the printed side and the inspection item on the non-printed side are different from each other. The information processing apparatus according to any one of claims 1 to 4. A control method for an information processing device that inspects the quality of a printed matter based on a comparison between a scanned image obtained by scanning a printed matter and a reference image.
The first determination step of determining whether the printed matter is double-sided printed or single-sided printed, and
If it is determined that the printed matter is printed on both sides, the quality of the printed matter is determined using the scanned image on both sides. If it is determined that the printed matter is printed on one side, the scanned image on only one side is used or both sides are used. A control method for an information processing apparatus, which comprises an inspection step of inspecting the quality of the printed matter by switching whether to use the scanned image of the above. When it is determined that single-sided printing is performed, it has a second determination step of determining whether or not double-sided inspection should be performed.
The control method for an information processing device according to claim 6, wherein the scan image of only one side or the scan image of both sides is switched based on the second determination result. The control method for an information processing device according to claim 6 or 7, wherein the second determination step is determined based on the type of paper used for printing. The control method for an information processing device according to claim 6 or 7, wherein the second determination step determines based on the type of deliverable. The inspection step is characterized in that when it is determined that single-sided printing is performed and inspection is performed using a scanned image of both sides, the inspection item of the printed side and the inspection item of the non-printed side are different. The control method of the information processing apparatus according to any one of claims 6 to 9. A computer-readable program for operating a computer as the information processing device according to any one of claims 1 to 5.

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