JP2015177254A - Image formation apparatus and control method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve such a problem that when manual setting is performed in the way of automatic setting by an initial installation work automation application, such a setting mistake that the manually set value is rewritten by automatic setting may possibly occur.SOLUTION: An initial installation work automation application displays the screen of initial installation work automation application, when a screen for operating an existing setting function is displayed, and suppresses display of the screen for operating an existing setting function.

Description

  The present invention relates to an image forming apparatus that improves the efficiency of initial installation work including setting information and installation of an extension program in the image forming apparatus, and a control method therefor.

  In order to introduce a new image forming apparatus, it is necessary to perform initial installation work according to the use environment of the image forming apparatus. The initial installation work includes work such as installation of hardware options such as a finisher for finishing a printed material, and setting of a control program for the image forming apparatus. In particular, the setting operation of the control program for the image forming apparatus is performed almost the same for the image forming apparatus introduced into the same environment, so that the setting operation can be made more efficient. Specifically, the efficiency of the setting work can be improved by importing the setting information exported from the image forming apparatus with the control program set to the image forming apparatus with no control program set. A technique using a portable storage medium as means for exporting and importing such setting information is known (see, for example, Patent Document 1).

  In addition, a method has been proposed in which a setting file is prepared in advance and the application is automatically initialized by using an automatic individual setting tool included in the application (see, for example, Patent Document 2). It is also possible to set manually by describing that a user interface (hereinafter referred to as UI) is displayed in a setting file prepared in advance.

  In recent years, systems that can add-in an extension program and expand the functions of the image forming apparatus are widely used in image forming apparatuses installed in offices. An example of this type of system is Canon's MEAP (registered trademark). These extension programs can have setting information unique to the extension program separately from the setting information of the control program of the image forming apparatus.

Japanese Patent No. 4796450 JP 2006-85544 A

  It is conceivable to combine the above-described technologies, add an application for automating the initial installation work as an extension program, and automate the initial installation work. However, the above-described technology alone may cause a problem when existing device setting functions and functions coexist. For example, if manual setting is performed during the automatic setting by the initial installation work automation application, there is a possibility that a setting error such that the manually set value is rewritten by the automatic setting may occur.

  The present invention has been made in view of the above-described conventional example, and an object thereof is to prevent occurrence of a setting error while allowing automatic setting and manual setting to coexist.

In order to achieve the above object, the present invention provides:
Operation means for displaying a screen for inputting set values;
Automatic setting means for setting a set value according to a programmed procedure;
Detecting means for detecting a change in the screen displayed on the operation means during automatic setting by the automatic setting means;
When the change of the screen is detected by the detection means, if the setting by the automatic setting means is not saved, the operation means has a display control means for displaying a predetermined screen for hiding the displayed screen. The image forming apparatus is characterized.

  According to the present invention, by appropriately controlling the screen display, it is possible to execute the initial installation work automatically even when the existing manual device setting function is effective.

It is a figure which shows the example of an apparatus structure of the setting information processing system containing the image forming apparatus of this invention. 2 is a block diagram illustrating an example of a configuration of a main part of the image forming apparatus of the present invention. FIG. FIG. 3 is a diagram illustrating a software configuration of the image forming apparatus of the present invention. It is a figure which shows the example of the main menu screen of the image forming apparatus of this invention. 1 is a diagram showing a functional configuration of an initial installation work support program for an image forming apparatus according to the present invention; It is a figure which shows the structure of the USB storage which the initial installation work support program of the image forming apparatus of this invention uses. , It is a figure which shows the example of the script in the image forming apparatus of this invention. (A) is a diagram showing a setting screen management table in the image forming apparatus of the present invention, (b) is a diagram showing a setting item management table. It is a figure which shows the display suppression object screen table in the image forming apparatus of this invention. 6 is a flowchart showing a flow of screen display processing in the image forming apparatus of the present invention. 6 is a flowchart showing a flow of script execution processing in the image forming apparatus of the present invention. It is a figure which shows an example of the screen during execution of an initial installation work support program.

<System configuration>
Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. A basic description of the image forming apparatus of the present invention will be given with reference to FIGS. FIG. 1 is a diagram illustrating an example of a device configuration of a setting information processing system including an image forming apparatus according to the present invention. A setting information processing system including an image forming apparatus according to the present invention includes an image forming apparatus 101, a portable storage medium 102, and a client computer 103.

  The image forming apparatus 101 is a multifunction machine in which a copying machine is integrated with a plurality of functions such as a scanner, a printer, a facsimile, and a file transmission function. The image forming apparatus 101 also has an interface for connecting a portable storage medium. The type of interface for connecting the portable storage medium is not limited, but in this embodiment, the USB interface is used. By connecting the portable storage medium 102 to this interface, data can be read from and written to the portable storage medium 102. The portable storage medium 102 may be of any type as long as it is a storage device that can be easily removed from the host device. In this embodiment, a USB storage that implements the USB mass storage class is used. The client computer 103 is an information processing apparatus such as a so-called personal computer. The client computer 103 has an interface for connecting a portable storage medium. The type of interface for connecting the portable storage medium is not limited, but a USB interface is used in this embodiment. By connecting the portable storage medium 102 to this interface, data can be read from and written to the portable storage medium 102.

<Image forming apparatus>
FIG. 2 is a block diagram illustrating an example of a configuration of a main part of the image forming apparatus 101. The image forming apparatus 101 includes a controller unit 200, to which a scanner 270 that is an image input device and a printer 295 that is an image output device are connected, and an operation unit 212 is connected. The controller unit 200 performs control for realizing a copy function for printing out image data read by the scanner 270 by the printer 295.
The controller unit 200 has a CPU 201, and the CPU 201 starts up an operation system (OS) by a boot program stored in the ROM 203. The CPU 201 executes a program stored in an HDD (Hard Disk Drive) 204 on the OS, thereby executing various processes. A RAM 202 is used as a work area of the CPU 201. The RAM 202 provides a work area and an image memory area for temporarily storing image data. The HDD 204 stores the program and image data.
The CPU 201 is connected via a system bus 207 to a ROM 203 and a RAM 202, an operation unit I / F (operation unit interface) 206, a network I / F (network interface) 210, a USB host I / F 213, an image bus I / F (image Bus interface) 205 is connected.
The operation unit I / F 206 is an interface with the operation unit 212 having a touch panel, and outputs image data to be displayed on the operation unit 212 to the operation unit 212. Further, the operation unit I / F 206 sends information input by the user through the operation unit 212 to the CPU 201.
A network I / F 210 is an interface for connecting the image forming apparatus 101 to a LAN.
The USB host I / F 213 is an interface unit that communicates with the USB storages 214 (a) and 214 (b). The USB host I / F 213 outputs the data stored in the HDD 204 to the USB storage 214. The USB host I / F 213 inputs data stored in the USB storage 214 and transmits it to the CPU 201. A plurality of USB devices including the USB storage 214 can be connected to the USB host I / F 213.
The USB storage 214 is an external storage device that stores data, and is detachable from the USB host I / F 213.
An image bus I / F 205 is a bus bridge for connecting the system bus 207 and an image bus 208 for transferring image data at high speed and converting the data format. The image bus 208 is configured by a PCI bus or IEEE1394. On the image bus 208, a device I / F 220, a scanner image processing unit 280, and a printer image processing unit 290 are provided.
A scanner 270 and a printer 295 are connected to the device I / F 220, and the device I / F 220 performs synchronous / asynchronous conversion of image data. A scanner image processing unit 280 corrects, processes, and edits input image data. The printer image processing unit 290 performs correction, resolution conversion, and the like corresponding to the printer 295 for the print output image data.

<Software configuration of image forming apparatus>
FIG. 3 is a diagram illustrating an example of a software configuration of the image forming apparatus 101. On the OS 300, a native program 301 of a control program originally provided such as a printer, a FAX, and a scanner, and an extended program execution platform 302 that is a platform for executing the extended program are operating. Further, a firmware update service 303, an option validation service 304, and a setting management service 305 are operating on the native program 301. An extended program system service 306 and an extended program 307 are operating on the extended program execution platform 302.
The firmware update service 303 is a service that provides various functions for updating firmware. For example, the firmware update service 303 refers to the firmware designated by the user and determines whether the firmware needs to be updated. The firmware is updated with respect to or through the native program 301.
The option validation service 304 is a service for validating an optional function that is incorporated in the native program 301 in advance. The option validation service 304 identifies and validates the option function specified by the option license file designated by the user.

A setting management service 305 is a service for managing various setting information such as printers and scanners. The setting management service 305 provides a function of rewriting the setting information of the native program 301 when, for example, a user specifies one or a plurality of settings or a file including a plurality of setting information. The setting management service 305 has a user interface (hereinafter referred to as UI), and the user can instruct setting change via the operation unit 212 of the image forming apparatus 101. The extended program system service 306 is a utility library that is useful for extended programs and is provided from the system. By calling the function of the extended program system service 306 from the extended program 307, it is possible to save time and effort for developing the extended program. The extension program 307 can access each module of the image forming apparatus 101 such as another extension program 307 and the RAM 202 only through the extension program execution platform 302 or the extension program system service 306. Further, the extension program 307 having a UI can display icons on the main menu screen displayed on the operation unit 212 of the image forming apparatus 101. When the operation unit I / F 206 detects that the user has selected this icon through the operation unit 212, the operation unit I / F 206 transmits the fact to the CPU 201. Receiving the notice, the CPU 201 displays the UI of the extension program selected by the user on the operation unit 212. The extension program 307 may include an initial installation work support program described later. However, since the initial installation work program itself has a function of installing the extension program, in this case, it is installed in the image forming apparatus 101 by a method different from other extension programs. Another method is, for example, a method using a function provided in the image forming apparatus 101 to install an extension program by manual operation.
Note that this software configuration describes only the basic part, and other services may be included depending on the implementation environment. In addition, there is no need for unnecessary services for reasons such as limiting settings.

<Main menu screen>
FIG. 4 is a diagram illustrating an example of a main menu screen displayed on the operation unit 212 of the image forming apparatus 101. The main menu screen 400 has a program icon display area 401, a standard program icon 402, and an extended program icon 403. A program icon display area 401 is an area for displaying an icon of a program that is currently operable on the image forming apparatus 101. A standard program icon 402 is an icon for displaying a UI for operating a function of the control program of the image forming apparatus 101. The extension program icon 403 is an icon for displaying a UI for operating the extension program of the image forming apparatus 101. The main menu screen 400 is displayed, for example, when the power is turned on or when the instructed process is completed or interrupted.

<Initial installation work>
Hereinafter, an initial installation operation of the image forming apparatus according to the present embodiment will be described. In performing initial installation work of an image forming apparatus, an operator sets a standard setting distributed to other image forming apparatuses to one image forming apparatus (hereinafter referred to as a reference image forming apparatus). Set according to the usage environment. Thereafter, the setting information for distribution to other image forming apparatuses is exported from the reference image forming apparatus after the installation work is completed, and the exported setting information is stored in the USB storage 214. Then, the process proceeds to an initial installation operation of another image forming apparatus (hereinafter, a distribution target image forming apparatus) that distributes the stored setting information. First, the initial installation work support program 500 is installed in the distribution target image forming apparatus. Then, the USB storage 214 is connected and the initial installation work support program 500 is executed. The initial installation work support program 500 performs the following work. First, the initial setting information is exported to the USB storage. Next, the reference setting information stored in the USB storage 214 is imported, and settings specific to the image forming apparatus (for example, IP address) are performed. Then, export the setting information after the installation work is completed. This series of work is executed by the initial installation work support program 500 according to a script stored in the USB storage 214. Then, the difference between the setting information in the initial state stored in the USB storage 214 and the setting information after completion of the installation work is taken, and it is confirmed that the installation work is correctly performed. Move to the initial installation work of the equipment. This confirmation work may be performed by the initial installation work support program 500 or by another program.

<Initial installation work support program>
Hereinafter, the above-described initial installation work support program 500 will be described with reference to the drawings. FIG. 5 is a diagram illustrating an example of a functional configuration of the initial installation work support program. Each function is realized by the CPU 201 executing a program corresponding to each function.
The initial installation work support program 500 includes a UI control unit 501, a storage management unit 502, a process execution unit 503, a script analysis unit 504, and a screen display processing unit 505.
The UI control unit 501 provides a user with a UI for operating the initial installation work support program to the user through the operation unit 212, and accepts the user's operation.
The storage management unit 502 reads and writes data in the USB storage 214. Also, insertion / removal of the USB storage 214 is detected.
The process execution unit 503 performs various processes in accordance with instructions from the UI control unit 501 and the storage management unit 502. Also execute the script.
The script analysis unit 504 analyzes the installation work instruction information script acquired from the USB storage 214 by the storage management unit 502 and converts the script into data that can be used in the initial installation work support program 500. The analyzed script is interpreted and executed by the initial installation work support program 500, particularly, for example, by the processing execution unit 503.
The screen display processing unit 505 detects that the screen of the application displayed on the operation unit 212 has changed, and appropriately performs processing for displaying the initial installation work support program screen on the operation unit 212.

<USB storage folder and file structure>
FIG. 6 is a diagram showing an example of the folder and file configuration in the USB storage 214 used by the initial installation work support program 500 according to the present invention.
The root folder 600 includes a Firmware folder 601, an Embedded Func folder 603, an App folder 605, a DevConfig folder 608, a Log folder 610, a Script. An xml file 612 exists.
The Firmware folder 601 is a folder for storing firmware to be updated for the image forming apparatus 101. In the present embodiment, Firmware_v1.0.1.1.0 is a firmware group archived in a Zipware format in the Firmware folder 601. A zip file 602 exists.
The Embedded Func folder 603 is a folder for storing a license file for activating a function preinstalled in the image forming apparatus 101 and making it usable. In the present embodiment, the license file Embedded Func-License. lic 604 exists.
The App folder 605 is a folder for storing an extension program to be installed in the image forming apparatus 101 in the initial installation work and a license file necessary for installing the extension program. In the present embodiment, the extension program Application001. jar 606 and license file App001-License. lic 607 exists.
The DevConfig folder 608 is a folder for storing setting information that has been set in advance and exported by the reference image forming apparatus. In this embodiment, the file AAA11111_deviceConfiguration.archive archived in the zip format is stored in the DevConfig folder 608. zip609 (a) and BBB22222_deviceConfiguration. Zip609 (b) exists. AAA11111_deviceConfiguration. zip 609 (a) is setting information for an image forming apparatus whose deviceId is AAA11111, and BBB22222_deviceConfiguration. Zip609 (b) is setting information for an image forming apparatus whose deviceId is BBB22222. The deviceId will be described later with reference to FIGS.
The Log folder 610 is a folder for storing a file (hereinafter, a log) as a result of execution by the initial installation work support program 500. In this embodiment, Log. txt 611 is stored, but before the initial installation work support program 500 is executed, the Log folder 610 and the Log. There is no txt611. These folders and files are created by the initial installation work support program 500 during or after execution.
AAA11111_Script. xml612 (a) and BBB22222_Script. xml 612 (b) is an instruction (script) indicating a work procedure for automatically processing the initial installation work. AAA11111_Script. xml612 (a) is a script for an image forming apparatus whose deviceId is AAA11111, and BBB22222_Script.xml. xml 612 (b) is a script for an image forming apparatus whose deviceId is BBB22222. Details of the script will be described later with reference to FIGS.
The configuration in this figure is an example, and the configuration is not limited to this, and an arbitrary folder configuration may be used.

<Example of script>
FIG. 7 and FIG. 8 show examples of scripts that are instructions indicating work procedures for automatically processing the initial installation of the image forming apparatus 101. The initial installation work support program 500 analyzes and executes this script, whereby the initial installation of the image forming apparatus 101 can be performed.
The script 700 in this figure is described in XML (extensible Markup Language), and includes an image forming apparatus identification unit 701 and a process description unit 702. In this figure, the script is expressed by XML, but is not limited to XML, and may be written by a shell script or the like.
The script 700 includes a basic information part 701 in which basic information of the script is described and a command part 702 in which details of initial setting work are described.
The basic information unit 701 is <projectId>, which is an identifier of what project the initial installation work is for, and <deviceId>, which is information for identifying the image forming apparatus 101 that is the target of the initial installation work. >. The projectId assigns a different ID to each company or office that performs the installation work. The deviceId is an ID assigned to each image forming apparatus, and all have unique values.
The command unit 702 describes a processing group necessary for performing the initial installation. In this figure, it comprises a firmware update command 703, an extension program install command 704, an extension program start command 705, a system built-in extension program activate command 706, a setting information import command 707, and a result save command 708. The tag indicating each process includes an Order attribute. In this figure, the order of the processes is determined according to the value of Order.
The firmware update command 703 is a process for updating firmware via the firmware update service 303. The firmware update command 703 defines a process by describing an <updateFirmwareCommand> tag, and specifies a file to be used by a <relativeDirPath> tag and <firmwareName>. The <relativeDirPath> tag describes a relative path from the root folder 600 to the firmware to be updated. The <firmwareName> tag specifies the firmware to be updated. In the figure, firmware archived in the Zip format is designated. This command is provided with a set value type “Firmware”.

The extension program install command 704 defines the process by the description of the <installApplicationCommand> tag, and specifies the extension program to be installed by the <relativeDirPath> tag and the <AppFileName> tag. The <relativeDirPath> tag describes a relative path from the root folder 600 to the actual extension program to be installed. The <AppFileName> tag specifies the entity of the extension program to be installed. In this figure, an extension program in the Jar file format is designated. Note that the format of this extension program is not limited to the Jar file format.
In addition, a license for the extension program to be installed is specified by a <licenseRelateDirDirPath> tag and a <licenseFileName> tag. The <licenseRelateDirDirPath> tag describes the relative path from the root folder 600 to the license file for the extension program. The <licenseFileName> tag specifies the license of the extension program. In this figure. A license file in the lic file format is specified, and the file format of the license is not limited to this.

The extension program start command 705 defines processing by the description of the <startApplicationCommand> tag, and specifies the extension program to be started by the <appId> tag. In the <appId> tag, an ID that uniquely identifies an extension program to be started is designated.
The system built-in extension program activate command 706 defines processing by the description of the <activeEmbeddedFunctionCommand> tag, and designates the built-in extension program to be activated by the <relativeDirPath> tag and the <licenseFileName> tag. The <relativeDirPath> tag describes a relative path from the root folder 600 to the license file of the embedded extension program to be activated. The <licenseFileName> tag specifies the license entity for validating the embedded extension program. In this figure, a license file in the lic format is designated, and the license file format is not limited to this. Note that if there is no built-in extension program preinstalled in the image forming apparatus 101 or if it is not activated, the description of this processing is unnecessary.

The setting information import command 707 defines processing by the description of the <importDeviceConfigCommand> tag, and specifies the setting information file to be imported by the <relativeDirPath> tag and the <configFileName> tag. The <relativeDirPath> tag describes a relative path from the root folder 600 to the setting information file to be imported. The <configFileName> tag specifies a setting information file to be imported. In the figure, a setting information file archived in the Zip format is designated. The format of the setting information file is not limited to the Zip file format. This command is provided with set value types “UserMode” and “ServiceMode”.
The result saving command 708 defines the processing by the description of the <saveResultCommand> tag, and specifies the setting result output destination folder by the <relativeDirPath> tag. The <relativeDirPath> tag describes a relative path from the root folder 600 to the setting result output folder.
Note that the script processing shown in this figure is not limited to the processing described, and for example, restart processing of the image forming apparatus 101 may be added. Further, there may be overlap and increase / decrease of processing as required. Processing duplication or increase / decrease is realized by duplication or increase / decrease of each command in FIGS.

<Screen display processing by the initial installation work support program>
The initial installation work of the image forming apparatus according to the present embodiment is performed by the initial installation work support program 500 sequentially executing the processes described in the script 700. In order to ensure that the initial installation work support program 500 ends the initial installation work, a setting screen (hereinafter referred to as an existing setting screen) by an existing setting application is displayed on the operation unit 212 while it is activated. To prevent. Hereinafter, screen display processing of the initial installation work support program 500 according to the present embodiment will be described.

  When the initial installation work support program 500 detects that an existing setting screen is displayed, the initial installation work support program 500 displays its own screen on the operation unit 212 and hides the existing setting screen. This prevents an operator from using an existing setting application. Therefore, the screen of the initial installation work support program 500 itself is displayed over the entire operation unit 212. Whether it is an existing setting screen to be hidden is determined by command information held by the processing execution unit 503, information of the setting screen management table shown in FIG. 9A, and information of the setting item management table shown in FIG. 9B. to decide.

FIG. 9A is a diagram showing a setting screen management table 800 according to the present embodiment. The setting screen management table 800 includes a screen ID 801 and a setting value type 802. The screen ID 801 is identification information that can uniquely determine the screen displayed by the application. The setting value type 802 is setting value type information that can be set on the screen of the application identified by the screen ID, that is, setting item information. For example, an application that displays a screen with a screen ID “Updata, 1234567” can set “Firmware”.
The display of the screen by the application can be realized, for example, by executing a display process prepared in advance as a function or object in the extended program system service 306 or the like using the screen ID as a parameter. A display screen is associated with the screen ID, and a screen associated with the designated screen ID is displayed. In this case, the displayed screen can be managed by, for example, the screen ID or the ID of the application displaying the screen ID. When the screen is newly displayed, the screen ID of the displayed screen is rewritten. The change of the screen can be known by monitoring the screen ID. Of course, this is only an example, and any other method can be used as long as it can know the change of the displayed screen and the screen ID.
FIG. 9B shows a setting item management table according to the present invention. The setting item management table 900 is composed of setting value types 901. The set value type 901 is type information of a set value that is greatly influenced by the change of the set value, that is, information on a specific set value type or a specific set value item.
The initial installation work support program 500 creates a display suppression target screen table shown in FIG. 10 based on the setting screen management table 800 at startup. FIG. 10 is a diagram showing a display suppression target screen table according to the present invention. In FIG. 10A, the display suppression target screen table 1000 includes a screen ID 1001 and a set value type 1002. The screen ID 1001 is identification information that can uniquely determine the screen. The setting value type 1002 is setting value type information that can be set on the application screen identified by the screen ID, that is, setting item information. FIG. 10B shows an example in which there is only one entry in the display suppression target screen table 1000.

<Display control processing by the initial installation work support program 500>
Next, screen display processing of the initial installation work support program 500 according to the present embodiment will be described. FIG. 11 is a flowchart showing the flow of screen display processing of the initial installation work support program 500 according to this embodiment. The procedure shown in FIG. 11 is executed as part of the initial installation work support program 500 in parallel with the initial setting work such as execution of a script. S1101 to S1105 indicate each step.
In step S1101, when the screen display processing unit 505 detects that the screen displayed on the operation unit 212 has changed, the process proceeds to step S1102. The change of the displayed screen can be known by monitoring the change of the screen ID as described with reference to FIG. However, the change of the display screen by the initial setting work support program 500 itself is not detected, and even if it is detected, it is processed as having no change. The screen change is caused, for example, by display of a setting screen by another application. If there is a change in the screen, in step S1102, the screen display processing unit 505 inquires of the process execution unit 503 and determines whether there is an unexecuted result storage command. If there is an unexecuted result storage command, the process proceeds to step S1104. If not, the process proceeds to step S1103. That is, when there is an unexecuted result saving command, it is necessary to prevent setting change by another application or the like until the saving is completed in order to save the setting by the initial setting work support program 500. Therefore, the process branches to step S1104 to prevent setting change by another application or the like. If the storage is complete, the process branches to S1103.
In step S1103, the screen display processing unit 505 refers to the display suppression target screen table 1000, matches the screen ID acquired when the screen change is detected in step S1101, and displays the screen displayed on the operation unit 212. Is a display prevention target screen, that is, a display suppression target screen. When the screen displayed on the operation unit 212 is a display suppression target screen, the process proceeds to step S1104. If not, the process ends.
In step S <b> 1104, the screen display processing unit 505 displays a predetermined execution screen indicating that the initial installation work support program 500 is being executed on the operation unit 212. This hides and suppresses the displayed screen. The executing screen is shown in FIG. As described above, the reason why the display suppression target screen is not displayed is displayed on the operation unit 212 by the screen during execution of the initial installation work support program 500 itself, and the process is terminated. Since the reason why the display suppression target screen is not displayed is that the initial installation work support program 500 is being executed, a message to that effect is included in the display screen as shown in FIG. By displaying the screen during execution of the initial installation work support program 500 itself, settings by other applications are prevented.

  As described above, if the setting is not saved by the initial setting work support program 500, the setting change by another application or the like is prevented. On the other hand, if the data has been saved, setting change by another application is permitted unless overwritten by the initial setting work support program 500.

<Display Suppression Target Screen> The present embodiment is characterized in that the target screen to be prevented from being displayed (that is, not displayed) is changed according to the execution state of the script. Next, while explaining the flow of script execution, the point of changing the screen to be prevented from being displayed will be described. FIG. 12 is a flowchart showing the flow of script execution processing of the initial installation work support program 500 according to this embodiment. S1201 to S1208 indicate each step.
In step S <b> 1201, the screen display processing unit 505 creates the display suppression target screen table 1000 based on the setting screen management table 800. For example, the contents of the setting screen management table 800 are copied to the display suppression target screen table 1000.
In step S1202, when the storage management unit 502 detects that the USB storage 214 (a) is connected and a script is input, the process proceeds to step S1203.
In step S1203, the storage management unit 502 analyzes the script stored in the USB storage 214 (a) using the script analysis unit 504.
In step S <b> 1204, the process execution unit 503 acquires the input script from the storage management unit 502 and passes the script information to the screen display processing unit 505. The screen display processing unit 505 deletes the screen information (that is, the screen ID and the corresponding set value type) of the application that is not related to the set value type set by the script from the display suppression target screen list 1000. For example, the display prevention target screen list 1000 when the script shown in FIG. 7 is input includes a firmware update command 703, an extension program installation command 704, an extension program start command 705, a system embedded extension program activate command 706, and a setting information import command. 707 includes a result saving command 708. For this reason, the set value type and the corresponding screen ID that are not likely to be updated by those commands are deleted from the initial set value type 1002. In the example of FIG. 10A, all setting value types of initial values (that is, the contents of the setting screen management table 800 of FIG. 9) may be changed by the script of FIG. It becomes a display suppression object screen list shown by. On the other hand, when the script shown in FIG. 8 is input, since only the firmware that may be updated by the firmware update command 703 is not updated by the script, the display suppression target screen shown in FIG. Become a list. The association between the command and the set value type that can be set by the command can be realized by preliminarily determining and registering it in a table (not shown).
In step S1205, the process execution unit 503 determines whether execution of all commands has been completed. If all commands have been executed, the process ends. If not, the process proceeds to step S1206.
In step S1206, the process execution unit 503 executes a command and performs device setting processing.
In step S <b> 1207, the process execution unit 503 passes the information on the command that has been executed to the screen display processing unit 505. The screen display processing unit 505 refers to the setting item management table 900 and determines whether the set value type that can be set by the completed command corresponds to the specific set value type. If the set value type that can be set by the finished command corresponds to the specific set value type, the process proceeds to step S1205. If not, the process proceeds to step S1208.
In step S1208, the screen display processing unit 505 deletes the record corresponding to the set value type for which setting has been completed from the display prevention target screen list 1000, and the process proceeds to step S1205.
That is, for the setting change command completed in accordance with the execution of the script, the screen for setting the setting value type that can be set by the command is excluded from the display suppression target screen. However, screens on which the specific set value type can be set are not excluded from the display suppression target screen regardless of the progress of the script. As a result, setting value types that may be set by the initial installation work support program 500 cannot be set by other applications until the automatic setting by the initial installation work support program 500 is completed. Once completed, it can be set even if the initial installation work support program 500 is in progress.

  According to the present embodiment, by appropriately controlling the screen display, even when the existing device setting function is valid, the initial installation work can be surely automatically executed.

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

Claims (9)

Operation means for displaying a screen for inputting set values;
Automatic setting means for setting a set value according to a programmed procedure;
Detecting means for detecting a change in the screen displayed on the operation means during automatic setting by the automatic setting means;
When the change of the screen is detected by the detection means, if the setting by the automatic setting means is not saved, the operation means has a display control means for displaying a predetermined screen for hiding the displayed screen. An image forming apparatus.   When the display control unit detects a screen change by the detection unit, if the setting by the automatic setting unit is already stored, the display control unit determines whether the screen being displayed is a predetermined display suppression target screen, The image forming apparatus according to claim 1, wherein the predetermined screen that hides the screen being displayed is displayed on the operation unit if the screen is a display suppression target screen. Further comprising a determining means for determining the display suppression target screen;
The determination means is a setting item that should be set by the automatic setting means among the screens displayed for performing the setting by means other than the automatic setting means according to the progress of the setting by the automatic setting means. A screen displayed for the display is stored as the display suppression target screen, and a screen displayed for the setting item set by the automatic setting unit is excluded from the display suppression target screen. The image forming apparatus according to 2.   The image according to claim 3, wherein the determination unit stores a screen displayed for a predetermined setting item as the display suppression target screen regardless of progress of setting by the automatic setting unit. Forming equipment.   The means that is not the automatic setting means is an application that can change the setting, and a screen displayed for the setting is a user interface that accepts an input of the setting by the user. Image forming apparatus.   6. The image forming apparatus according to claim 1, wherein the predetermined screen for hiding the screen being displayed includes a message indicating that the setting by the automatic setting unit is in progress. . A computer having operation means for displaying a screen for inputting a set value and execution means for executing a programmed procedure,
Detecting means for detecting a change in the screen displayed on the operating means during the automatic setting executed by the executing means;
A program for causing the operation means to function as a display control means for displaying a predetermined screen for hiding the displayed screen when the change by the detection means is detected and the setting by the automatic setting is not saved. .   A portable storage medium storing the program according to claim 7. A display process for displaying a screen for inputting set values on the operation means;
A detection step for detecting a change in the screen displayed in the operation step during automatic setting by the automatic setting means for setting the set value according to a programmed procedure;
A display control step of displaying a predetermined screen that hides the currently displayed screen by the operation step when a change of the screen is detected by the detection step and the setting by the automatic setting means is not saved. A control method for an image forming apparatus.

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