JP2020064654A - Information processor and image forming apparatus management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently set a third information such as an image forming condition in an image forming apparatus to be adjusted. A server 200 includes a control unit 210 and a storage unit 220. The control unit 210 acquires the first information set in the image forming apparatus 100'before replacement and the second information set in the image forming apparatus 100 to be adjusted via the network 300, and obtains the first information. The information and the second information are stored in the storage unit 220, then the first information and the second information are read out from the storage unit 220, and the third information is based on the first information and the second information. Is created, and the third information is transmitted to the image forming apparatus 100 via the network 300 and set. [Selection diagram] Fig. 3

Description

  The present invention relates to a technique for efficiently setting image quality adjustment information in an image forming apparatus.

  2. Description of the Related Art Conventionally, an image forming apparatus has various functions increased to improve convenience. By the way, in the replacement of the image forming apparatus, there are many requests to use in the same state as before the replacement, and in such a case, various settings need to be made under the current situation where the functions are increased. Therefore, there has been proposed a technique that allows a computer to efficiently perform setting of config information, such as simple correspondence such as double-sided printing, during replacement (Patent Document 1). Similarly, Patent Documents 2 to 4 describe techniques in which the configuration information before replacement is made to be taken over by the image forming apparatus after replacement.

JP, 2013-125520, A JP, 2007-19809, A JP, 2013-131168, A JP, 2013-122689, A

  In the image forming apparatus, in addition to the configuration information, a user environment related to image quality adjustment such as print color tone is prepared as an adjustment item, and it is often the case that each user uses the adjustment content desired. The techniques described in Patent Documents 1 to 4 are config information takeover processes that can be simply associated, and do not describe the user environment information takeover process at the time of replacement. The user environment information includes the setting information related to the image quality adjustment and the state information of the apparatus, and in the replacement, these various factors must be taken into consideration and cannot be processed by simple association.

  The present invention has been made in view of the above problems, and information processing that can efficiently set information for adjustment to an image forming apparatus that is an adjustment target by using information of another image forming apparatus. It is an object of the present invention to provide a container and an image forming apparatus management system.

  An information processor according to the present invention is an information processor that is communicably connected via a network to an image forming apparatus that forms an image according to set information, and includes a controller and a storage unit, and the controller is , The first information set in the first image forming apparatus and the second information set in the second image forming apparatus are acquired via the network, and the controller stores the first information and the first information. The second information is stored in the storage unit, and the controller reads the first information and the second information from the storage unit to obtain the first information and the second information. Based on the third information, the controller transmits the third information to the second image forming apparatus via the network.

  An image forming apparatus management system according to the present invention includes the information processing device, front first and second image forming devices connected to the information processing device via the network, and the controller includes: The third information is transmitted to the second image forming apparatus, and the second image forming apparatus forms an image using the third information transmitted from the controller.

  According to these aspects of the invention, the information processing device acquires the first and second information set in the first and second image forming apparatuses via the network, stores the information, and further reads it to read the third information. It is possible to create information, send this third information to the second image forming apparatus via the network, and set it.

  Further, in the present invention, the controller is characterized in that new information is added to the second information to create the third information.

  Further, in the present invention, the first information, the second information, and the third information include image forming conditions.

  Further, in the invention, it is preferable that the first image forming apparatus is an apparatus before replacement and the second image forming apparatus is an apparatus after replacement instead of the first image forming apparatus. To do.

  Further, in the present invention, the storage unit stores model information of the image forming apparatus for each model, and the controller stores the first image forming apparatus based on the information stored in the storage unit. It is characterized in that the third information of the second image forming apparatus is created according to the model information of the second image forming apparatus.

  Further, in the present invention, the first image forming apparatus is most similar to the second information of the second image forming apparatus among the other image forming apparatuses except the second image forming apparatus. It is characterized by being selected as a device having information.

  According to the present invention, it is possible to efficiently set the third information such as the image forming condition for the second image forming apparatus.

1 is a front view showing the overall configuration of an image forming apparatus to which the present invention is applied. 6A and 6B are diagrams illustrating the flow of information between the image forming apparatus and the server, FIG. 9A illustrates the flow of information with the image forming apparatus before replacement, and FIG. 9B shows the flow of information with the image forming apparatus after replacement. FIG. FIG. 3 is a block diagram illustrating an example of functional configurations of a server and an image forming apparatus. It is a relationship diagram which shows the relationship between laser power and the thickness of a printing line. FIG. 7 is a diagram showing each gradation of the image forming apparatus before replacement and the image forming apparatus to be adjusted. 6 is a flowchart of a server and an image forming apparatus to be adjusted for explaining a process according to the first embodiment for adjusting the image forming apparatus to be adjusted. FIG. 3 is a diagram showing each gradation of a reference image forming apparatus and an image forming apparatus to be adjusted. 9 is a flowchart of a server and an image forming apparatus to be adjusted for explaining a process according to the second embodiment for adjusting the image forming apparatus to be adjusted.

  As shown in FIG. 1, the image forming apparatus 100 includes an image forming section 10, an intermediate transfer section 20, a secondary transfer section 30, a fixing section 40, a sheet feeding section 50, and a sheet conveying section 60. A reading unit that optically reads a document image and an automatic document feeder may be mounted as needed. The image forming apparatus 100 performs color or monochrome image forming processing on a sheet of color or monochrome image data input from an external device (not shown) or image data of a document read by a reading unit.

  The image forming unit 10 adopts a tandem system in the present embodiment, and includes the light beam scanning unit 1 and image forming units 10A to 10D for each color having the same structure. The light beam scanning unit 1 includes a semiconductor laser that emits a laser beam with a set light amount. The light beam scanning unit 1 uses the image data of each pixel of R, G, and B colors corresponding to the input color original as density data of black (K), cyan (C), magenta (M), and yellow (Y). ., And the surface of the photoconductor drums 2A, ... Of the image forming units 10A to 10D is axially (main scanning direction) by the light of the laser beam modulated at the duty ratio corresponding to each density data after conversion. And exposure scanning is performed to form each electrostatic latent image. The image forming unit 10A, which will be described as a representative, develops black (K), includes a photoconductor drum 2A as an image carrier, and has a charger 3A around the photoconductor drum 2A along the rotation direction (sub scanning direction). , A developing device 4A and a cleaner portion 5A. The developing device 4A supplies the toner to the photoconductor drum 2A so that the electrostatic latent image becomes a toner image. The cleaner unit 5A cleans the residual toner on the photosensitive drum 2A after the toner image is transferred onto the recording paper by scraping the residual toner.

  The intermediate transfer unit 20 includes an intermediate transfer belt 21, a driving roller 22, a driven roller 23, and primary transfer rollers 24A, ..., And a toner image (developer) formed on each peripheral surface of the photoconductor drums 2A ,. Image) is primarily transferred onto the surface of the intermediate transfer belt 21 as an image carrier. The secondary transfer unit 30 secondarily transfers the toner image on the surface of the intermediate transfer belt 21 onto a sheet. The intermediate transfer unit 20 further includes a cleaner unit 25. The cleaner unit 25 is disposed at an appropriate position in the peripheral circuit of the intermediate transfer belt 21 so as to face the intermediate circuit, and collects the residual toner remaining on the intermediate transfer belt 21 after fixing. The fixing unit 40 heats and fixes the toner image transferred onto the paper, and discharges the toner image onto the paper discharge tray. The paper feed unit 50 includes a paper feed cassette 51 and a manual feed tray 52, and feeds the selected paper to the paper transport unit 60.

  The operation of the image forming unit 10 is performed by the image forming processing unit 114 (see FIG. 3) based on the setting content corresponding to various functions stored in the storage unit 130 (see FIG. 3). The various functions include, for example, configuration information such as double-sided / single-sided printing and horizontal / vertical printing. In addition to the config information, it also includes setting information and status information as user environment information for image quality adjustment corresponding to each user's preference. The setting information includes, for example, laser power for changing the thickness of characters and line drawings, and a process control target (developing bias, etc.) for image density and gradation adjustment. As the state information, various kinds of correction information such as calibration, temperature and humidity that affect the toner characteristics, halftone information for gradation adjustment for obtaining a color tone unique to the user, and the like are assumed. Then, the image forming processing unit 114 (see FIG. 3) performs known processing such as filtering on the image to be printed, and further causes the image forming unit 10 to perform processing according to the configuration information and the user environment information.

  FIG. 2 shows a system in which user environment information for image quality adjustment is connected between the image forming apparatus 100 and a server 200 as an information processor so as to be communicable by wireless or wire. The communication medium may be the Internet or a network 300 (see FIG. 3) such as a LAN (Local Area Network). It should be noted that in FIG. 2, description of the exchange of the configuration information is omitted.

  In FIG. 2, the setting information and the status information as the user environment information are transmitted (saved) from the image forming apparatus before replacement (hereinafter, referred to as a machine before replacement) 100 ′ connected to a certain line to the server 200. Next, the pre-replacement machine 100 'is removed, and a new image forming apparatus (hereinafter, appropriately referred to as a machine to be adjusted) 100 is installed (replaced) on the line as shown in FIG. 2B. After the replacement, the adjustment target machine 100 is started, the state information is acquired, and is transmitted to the server 200.

  The server 200 uses the setting information and status information from the pre-replacement machine 100 'and the status information from the adjustment-target machine 100 so that the adjustment-target machine 100 has the same user environment as the pre-replacement machine 100'. Setting information to be set in the machine 100 is created and transmitted to the adjustment target machine 100 as initial setting information. The adjustment target machine 100 takes over the user environment of the pre-replacement machine 100 'as it is according to the initial setting information. The pre-replacement machine 100 ′ and the adjustment target machine 100 can identify both the replacement target machines by using the respective machine IDs and the like. In addition, when the machine before replacement 100 'and the machine to be adjusted 100 are different from each other, the same environment can be obtained by performing conversion processing between the models using the characteristic information stored for each model stored in advance. It becomes possible to create setting information.

  In FIG. 3, first, the functional configuration of the image forming apparatus 100 will be described. The image forming apparatus 100 includes a control unit 110 configured by a computer or the like, which controls the operation of the image forming unit 10. The control unit 110 is composed of a liquid crystal display panel or the like, includes a display unit 121 that displays an image, a touch panel, button keys, and the like, and is connected to an operation unit 122 that receives an input operation from a user, and a storage unit 130. The storage unit 130 is a control program for operating the image forming unit 10, a control program for setting information in the adjustment mode and communication with the server 200, setting information (default information, configuration information, user environment information (setting). Information, status information)) is stored. The storage unit 130 also has a work area for temporarily storing an image or the like to be printed.

  A density sensor 131, a sheet number counter 132, and a temperature / humidity sensor 133 are connected to the control unit 110. The density sensor 131 is composed of a light emitting element and a light receiving element, is arranged face-to-face at an appropriate position on the peripheral circuit of the intermediate transfer belt 21, and optically measures the density of the patch during the process control. The number counter 132 cumulatively counts the number of printed sheets. The temperature / humidity sensor 133 is arranged at an appropriate position in the device housing and measures the temperature and humidity inside.

  The control unit 110 executes the control program in the adjustment mode to control the operations of the communication processing unit 111, the configuration information setting unit 112, the user environment information setting unit 113, and the image forming unit 10. Function as 114.

  The communication processing unit 111 communicates information such as config information, user environment information, and machine ID with the server 200 via the network 300.

  The configuration information setting unit 112 and the user environment information setting unit 113 are provided in both the pre-replacement machine 100 'and the replaced adjustment target machine 100. That is, the configuration information setting unit 112 acquires the configuration information by the pre-replacement machine 100 'before exchanging it, and transmits it to the server 200 to save it. Further, the configuration information setting unit 112 starts the adjustment target machine 100 after replacement, takes in the configuration information of the pre-replacement machine 100 ′ saved in the server 200, and registers (sets) it in the storage unit 130. I do.

  The user environment information setting unit 113 acquires the user environment information (setting information, status information) by the pre-replacement machine 100 ′ before the replacement, and transmits it to the server 200 to save it. In addition, the user environment information setting unit 113 activates the replacement-target machine 100 after replacement, acquires the state information in the user environment information, and transmits it to the server 200. Further, the user environment information setting unit 113 then performs a process of fetching the setting information of the user environment information created by the server 200 from the server 200 and registering (setting) it in the storage unit 130.

  Subsequently, the server 200 includes a control unit 210 including a computer and a storage unit 220. The storage unit 220 includes a memory area for storing a processing program and a work area for executing processing, and is connected to the capture information storage section 221 for capturing various information transmitted from the image forming apparatus 100 and the network 300. And a model information storage unit 222 that stores characteristic information for each model of each image forming apparatus 100.

  By executing the processing program, the control unit 210 functions as the setting information creation unit 211 and the communication processing unit 212 that exchanges various types of information with the image forming apparatus 100 via the network 300.

  The setting information creation unit 211 creates the setting information of the replacement-targeted machine 100 after replacement based on the information in the import information storage unit 221. Further, when the model of the image forming apparatus before and after the replacement is different, the setting information creation unit 211, based on the information in the capture information storage unit 221 and the model information storage unit 222, the setting information of the adjustment target machine 100 after the replacement. create.

  Next, with reference to FIG. 4 and FIG. 5, a first embodiment will be described in which the setting information of the adjustment target machine 100 after replacement is created based on the information of the import information storage unit 221.

  FIG. 4 is an explanatory diagram in the case where the thickness of the lines is the same for the adjustment target machine 100. As shown in FIG. 4, the thickness of the character line corresponds to the laser power output. Now, assuming that the laser power in the setting information of the machine 100 'before replacement is set to 80%, and the machine after replacement is also desired to have the same line thickness, another condition, that is, the machine 100' before replacement and the adjustment target The respective state information of the machine 100 is compared with each other, and if they match each other, setting information for setting the laser power to 80% is created. On the other hand, if there is a difference in the information that affects the thickness of the line among the state information of the pre-replacement machine 100 ′ and the adjustment target machine 100, the difference is handled according to the correction condition prepared in advance. The laser power may be created by correcting the laser power. If the models are different, the laser power may be set by converting from the relationship between the laser power of both models and the line thickness.

  Next, FIG. 5 is an explanatory diagram in the case where the tint is the same for the adjustment target machine 100. Regarding the hue, the gradation of the composite color is changed by changing the gradation (γ characteristic) of each color. As shown in FIG. 5, by combining the γ characteristic of the adjustment target machine 100 after the replacement with the γ characteristic before the replacement, it is possible to make the combined hues the same. Therefore, the γ characteristic of each color is created from the color contrast data of the calibration control and calibration of the pre-replacement machine 100 '. Then, the created γ characteristic of each color is transmitted to the replacement target machine 100, and the γ characteristic table of each color is rewritten from the initial setting to the transmitted γ characteristic of each color. As another method, a difference (in the output value direction) between the γ characteristic of each color of the pre-replacement machine 100 ′ and the γ characteristic of each color initially set in the adjustment target machine 100 after replacement is created as setting information. However, the information related to this difference may be transmitted to the adjustment target machine 100 as the setting information.

  Next, information setting to the adjustment target machine after replacement will be described with reference to FIG. A description of transmission and reception of the configuration information will be omitted.

  First, the server 200 receives and fetches the user environment information (setting information, state information) together with the ID information from the pre-replacement machine 100 'under the adjustment mode executed by receiving an instruction to the operation unit 122 (step S1). ). Thereafter, the pre-replacement machine 100 'is removed, and then the post-replacement adjustment target machine 100 is installed in the line. Then, it is activated (step Q1). After being activated, the adjustment-target machine 100 acquires the state information in the user environment information automatically or in response to the instruction of the adjustment mode (step Q3), and transmits the obtained state information to the server 200 together with the ID information. (Step Q5).

  When the server 200 receives the information (step S3), the server 200 recognizes the replacement adjustment request from the adjustment target machine 100 and executes the following processing (step S5). That is, the server 200 sets the adjustment target machine 100 based on the user environment information (setting information, status information) of the pre-replacement machine 100 ′ received in step S1 and the state information of the adjustment target machine 100 received in step S3. Create information. Next, the server 200 transmits the created setting information to the adjustment target machine 100 (step S7). Upon receiving the setting information from the server 200 (step Q7), the adjustment-target machine 100 sets the received setting information in the machine (step Q9).

  Next, FIG. 7 shows the second embodiment and is an explanatory diagram for setting the state information for the adjustment target machine. In the second embodiment, in the adjustment of the adjustment target machine 100, the server 200 is used to refer to the information of another machine group without forcing the adjustment target machine 100 to perform a complicated operation for the adjustment. This makes it easier to create adjustment information. In the example of FIG. 7, the machine to be adjusted 100 forms a patch with a predetermined density, for example, the maximum input value 255, and the density sensor 131 measures the patch density. Then, the adjustment target machine 100 transmits the measured patch density, temperature and humidity, the number of printed sheets, and setting information to the server 200 as necessary. The server 200 selects, as a reference machine, a machine having patch density, temperature and humidity, and the number of printed sheets that is the closest to, ie, the most similar to, the adjustment target machine 100 from a group of machines including different models connected to the network 300.

  The server 200 corrects the gradation of the reference machine (see the gradation line L1 in FIG. 7A) in accordance with the difference in each information between the adjustment target machine 100 and the reference machine. The correction is performed using the information corresponding to both machines. For example, the gradation between the patch density detected by the adjustment target machine 100 and the origin is corrected (the gradation line L2 in FIG. 7B). See). In this case, the correction is performed in consideration of the temperature and humidity and the difference in the number of printed sheets. The correction characteristics in each information may be registered in advance. According to this, density adjustment and gradation adjustment can be performed instead of the process control performed by interrupting the printing operation.

  Next, setting of state information in the adjustment target machine will be described with reference to FIG. First, the adjustment target machine 100 creates a patch and measures its density in the adjustment mode (step Q11), and then transmits the measurement information to the server 200 together with the ID information (step Q13). When the server 200 receives the measurement information and the state information together with the ID information from any of the adjustment target machines 100 of the machine group (step S11), the received measurement information and the state information and the machine group excluding the adjustment target machine 100. The similar comparison with each of the machines is performed and the most similar machine is selected as the reference machine (step S13). As the similarity determination method, for example, the sum of differences (including weighting) of each item of information (or information of selected items) may be minimized.

  Next, the server 200 creates the setting information of the adjustment target machine 100 from the reception information from the adjustment target machine 100 and the state information of the selected machine (step S15). Then, the server 200 transmits the created setting information to the adjustment target machine 100 (step S17). Upon receiving the setting information from the server 200 (step Q15), the adjustment-target machine 100 sets the received setting information in the machine (step Q17).

  Note that, as the third embodiment, instead of the server 200, a mode may be adopted in which the setting information of the adjustment target machine 100 is adjusted via a portable memory chip. For example, a removable memory chip that communicates with the control unit 110 of the image forming apparatus 100 is provided, and the user environment information is transferred from the pre-replacement machine 100 ′ to the memory chip with the memory chip inserted. Then, after the replacement target machine is connected and activated, this memory chip is inserted and the transfer information from the pre-replacement machine 100 ′ may be transferred to the adjustment target machine 100. In this case, the setting information is created on the adjustment target machine 100 side. On the other hand, by inserting the adjustment target machine 100 into the adjustment target machine 100, fetching the state information of the adjustment target machine 100, executing the same setting information creation processing as that of the server 200 inside the memory chip, and returning it to the adjustment target machine 100. A mode in which the control unit described above is provided may be adopted. According to this, the device and the system are small as a whole.

  In addition, it should be considered that the above description of the embodiment is an exemplification in all respects and not restrictive. The scope of the invention is indicated by the claims rather than the embodiments described above. Further, the scope of the present invention is intended to include meanings equivalent to the claims and all modifications within the scope.

  Then, the information processing device includes the setting information and the status information set in one image forming device in the information processing device that is communicatively connected to the image forming device that forms an image according to the set image quality adjustment information. Information creating means for creating the setting information of the image quality adjustment information of the image forming apparatus of the adjustment target from the image quality adjustment information including the image quality adjustment information and the state information of the image quality adjustment information set in the image forming apparatus of the adjustment object. And information setting means for setting the setting information in the image quality adjustment information of the created image forming apparatus to be adjusted to the image forming apparatus to be adjusted.

  Further, the image forming apparatus management system includes the information processing device, the first image forming device connected to the information processing device, and the adjustment target image forming device connected to the information processing device. Preferably.

  According to these aspects of the invention, when one image forming apparatus is used as the image forming apparatus before replacement, the information processing device sets the image quality of the image forming apparatus to be adjusted after replacement to be the same as that of the image forming apparatus before replacement. It becomes possible to set. Further, when the one image forming apparatus is the reference machine selected from the group of machines connected to the information processing device, the image quality of the image forming apparatus to be adjusted can be set to be the same as that of the reference machine. . Therefore, the image quality adjustment information is efficiently set in the image forming apparatus to be adjusted. The information processor may be a server, a portable memory chip, or the like.

  In the information processor, it is preferable that the first image forming apparatus is a pre-replay apparatus and the adjustment target image forming apparatus is a post-replacement apparatus that replaces the first image forming apparatus. With this configuration, the image quality of the image forming apparatus to be adjusted after replacement can be set to be the same as that of the image forming apparatus before replacement.

  In the information processing device, a storage unit that stores the image quality adjustment information as model information for each model is provided, and the information creating unit includes the image forming apparatus of 1 and the image forming apparatus of the adjustment target. It is preferable to create setting information in the image quality adjustment information of the image forming apparatus to be adjusted according to the information. With this configuration, even when the model of the image forming apparatus of 1 and the image forming apparatus of the adjustment target are different, the image quality of the image forming apparatus of the adjustment target is set to be the same as that of the image forming apparatus before replacement. It becomes possible.

  Further, in the information processing device, the first image forming apparatus is in a state in the image quality adjustment information of the image forming apparatus of the adjustment target among the image forming apparatuses other than the image forming apparatus of the adjustment object. It is preferably selected as the device with the state information that most closely resembles the information. With this configuration, it is possible to set the image quality of the adjustment target image forming apparatus to be the same as that of the reference machine.

100 Machine to be adjusted (image forming apparatus)
200 servers (information processor)
211 Setting information creation unit (information creation means)
212 Communication processing unit (information setting means)
220 storage

Claims (7)

In an information processor that is communicably connected to an image forming apparatus that forms an image according to the set information via a network,
A controller,
A storage unit,
The controller is
Acquiring the first information set in the first image forming apparatus and the second information set in the second image forming apparatus via the network,
The controller is
Storing the first information and the second information in the storage unit,
The controller is
Reading the first information and the second information from the storage unit, creating third information based on the first information and the second information,
The controller is
An information processor that transmits the third information to the second image forming apparatus via the network.   The information processor according to claim 1, wherein the controller creates new information by adding new information to the second information.   The information processor according to claim 1, wherein the first information, the second information, and the third information include image forming conditions.   The information processing device according to claim 1, wherein the first image forming device is a device before replacement, and the second image forming device is a device after replacement in place of the first image forming device. . The storage unit stores model information of the image forming apparatus for each model,
The controller, based on the information stored in the storage unit, determines whether the first image forming apparatus and the second image forming apparatus have the second image forming apparatus according to the both model information of the first image forming apparatus and the second image forming apparatus. The information processor according to claim 1, wherein the information of 3 is created.   The first image forming apparatus is selected as an apparatus having information most similar to the second information of the second image forming apparatus from other image forming apparatuses except the second image forming apparatus. The information processing device according to claim 1, wherein the information processing device is a stored information processing device. The information processing device according to claim 1, and the first and second image forming apparatuses before and connected to the information processing device via the network,
The controller transmits the third information to the second image forming apparatus,
An image forming apparatus management system, wherein the second image forming apparatus forms an image by using the third information transmitted from the controller.

Images