JP2019016910A - Equipment setting device, equipment setting system, equipment setting method, and program - Google Patents

Abstract

To improve work efficiency for customer-side equipment in setting equipment setting information set in advance in a server to the equipment, by turning on the equipment and setting a logical address to the equipment.SOLUTION: In a printing system, an equipment setting device comprises: an information acquisition unit that acquires, from a server 3 that manages an equipment setting value set to an image forming apparatus 1 and a MAC address of the image forming apparatus 1 in association with each other, the MAC address and equipment setting value; a power-on request transmission unit that transmits a power-on request requesting to turn on the power to the image forming apparatus 1 having the MAC address via a network to which the image forming apparatus 1 belongs; an idle IP address specification unit that, after receiving a power-on notification from the image forming apparatus 1 activated in response to the power-on request, specifies an IP address not used in the network; and an idle IP address transmission unit that transmits the specified IP address to the image forming apparatus 1.SELECTED DRAWING: Figure 11

Description

  The present invention relates to a device setting device, a device setting system, a device setting method, and a program.

Conventionally, when delivering at least one device to the customer side,
(1) The same setting operation as that performed on the device in the customer environment is performed on the server in advance, and the device setting value is stored in the server.
(2) In the customer environment, access to the server and download the device setting information.
(3) The device setting information is automatically set in the device.
By performing the above procedure, there is a technology that automatically performs settings for all delivered devices and enables the service engineer to eliminate the work time required to perform the setting work one by one. (Patent Document 1).

However, as in the prior art, in the method of reflecting the device setting information acquired from the server in advance to the local device,
(A1) A service engineer performs device settings on the server.
(A2) In the customer's environment, turn on the power of the equipment that was brought in.
(A3) Set an IP address for the device.
(A4) Downloading the device setting information via the server and automatically reflecting the device setting information on the device.
This procedure is necessary. At this time, the operations (A2) and (A3) that cannot be performed in advance must be performed manually by the service engineer on site, and the efficiency of the device setting operation for the delivered device is reduced. there were.

  One embodiment of the present invention has been made in view of the above, and as its purpose, when the device setting information set in the server in advance is set in the device on the customer side, the power to the device is turned on. By setting the logical address, the work efficiency for the device is improved.

  In order to solve the above-described problem, the invention according to claim 1 is a device setting device that sets a device setting value and a logical address related to operation of a device in the device, the device setting value being set in the device, Information acquisition means for acquiring a physical address and a device setting value from a server device that manages the physical address of the device in association with each other, and a power-on request for requesting power-on to the device having the physical address A power-on request transmitting means for transmitting via a network to which the device belongs, and a logical address identifying for identifying a logical address that is not used in the network after receiving a power-on notification from a device activated in response to the power-on request Means, and a logical address transmission means for transmitting the specified logical address to the device.

  According to the present invention, when the device setting information set in the server device in advance is set in the customer side device, the work efficiency for the device is improved by turning on the device and setting the logical address to the device. can do.

1 is a diagram illustrating a system configuration of a printing system according to a first embodiment of the present invention. FIG. 2 is a block diagram illustrating a hardware configuration of the image forming apparatus illustrated in FIG. 1. It is a block diagram which shows the hardware constitutions of the server shown in FIG. It is a block diagram which shows the function structure and operation | movement of a server and PC in the printing system shown in FIG. FIG. 2 is a block diagram illustrating functional configurations and operations of an image forming apparatus, a server, and a host PC in the printing system illustrated in FIG. 1. It is a figure which shows the information preserve | saved at the storage area of the server shown in FIG. It is a schematic diagram which shows the data structure about the automatic setting application preserve | saved in the storage area shown in FIG. 6, and apparatus setting information. It is a figure which shows the structure of the automatic setting package which is a processing module preserve | saved at the media storage area of PC and host PC. It is a figure which shows the data structure preserve | saved at a media storage area. FIG. 5 is a sequence diagram illustrating a procedure until an automatic setting package is downloaded from a server in the printing system according to the first embodiment of the present invention. FIG. 5 is a sequence diagram illustrating a procedure from automatically starting and setting an image forming apparatus in a customer environment in the printing system according to the first embodiment of the present invention. It is a figure which shows the system configuration | structure of the printing system which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the function structure and operation | movement of a server and PC in the printing system shown in FIG. FIG. 13 is a block diagram illustrating functional configurations and operations of an image forming apparatus and a host PC in the printing system illustrated in FIG. 12. It is a figure which shows the information preserve | saved at the media storage area of the USB memory shown in FIG. It is a sequence diagram which shows the procedure until it downloads an automatic setting package from a server in the printing system which concerns on 2nd Embodiment of this invention. FIG. 10 is a sequence diagram illustrating a procedure from automatically starting and setting an image forming apparatus in a customer environment in a printing system according to a second embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings.
The present invention improves the work efficiency for a device by turning on the device and setting a logical address for the device when device setting information set in the server device in advance is set in the customer side device. In addition, it has the following configuration.
That is, the device setting device of the present invention is a device setting device that sets a device setting value and a logical address related to the operation of the device, and associates the device setting value set to the device with the physical address of the device. Information acquisition means for acquiring the physical address and device setting value from the server device to be managed, and power-on for transmitting a power-on request for requesting power-on to the device having the physical address via the network to which the device belongs After receiving the power-on notification from the request transmission unit, the device activated in response to the power-on request, the logical address identifying unit for identifying a logical address that is not used in the network, and the identified logical address is transmitted to the device. Logical address transmission means.
With the above configuration, when device setting information set in the server device in advance is set in the customer's device, work efficiency for the device is set by turning on the device and setting a logical address for the device. Can be improved.
The features of the present invention described above will be described in detail with reference to the following drawings. However, the components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are merely illustrative examples and not intended to limit the scope of the present invention only unless otherwise specified. .
Hereinafter, the features of the present invention will be described in detail with reference to the drawings.

<First Embodiment>
<Printing system>
FIG. 1 is a diagram showing a system configuration of a printing system according to the first embodiment of the present invention.
The printing system 1OO is configured by connecting an image forming apparatus 1, a cloud server 3, a PC 5, and a host PC 7 via a network N1, such as the Internet, an in-house internal network N2, and a customer-side environment internal network N3.
Although FIG. 1 shows an example in which the printing system 1OO includes one image forming apparatus 1 and one cloud server 3, the present embodiment is not limited to this. The printing system 1OO may connect a plurality of devices to each network. The communication method is not particularly limited, and may be either wired communication or wireless communication.

The image forming apparatus 1 is a device having a unique physical address. When a device setting value is set, for example, print data received from another information processing apparatus (for example, the host PC 7) is transferred to the image forming apparatus 1. Save to the storage section. Thereafter, when the user selects print data from the operation unit 21 and performs a key operation to start pull printing, the image forming apparatus 1 can read out the print data from the storage unit and print it.
The cloud server 3 is a server that provides a predetermined service such as a storage service.
The PC 5 is a personal computer (personal computer) connected to the company internal network N2, and includes a communication I / F 5a, a CPU (central processing unit) 5b, a ROM (read only memory) 5c, a RAM (random access memory) 5d, a monitor. 5e.
The host PC 7 is a personal computer (personal computer) connected to the customer-side environment internal network N3, and includes a communication I / F 7a, a CPU (central processing unit) 7b, a ROM (read only memory) 7c, and a RAM (random access memory). 7d and a monitor 7e.

<Image forming apparatus>
FIG. 2 is a block diagram illustrating a hardware configuration of the image forming apparatus illustrated in FIG.
The image forming apparatus 1 includes a controller 10 that controls the main body of the image forming apparatus 1, a printer engine 22 that prints an image on paper, and an operation unit that displays the state of the main body of the image forming apparatus 1 and the like by user input. 21.
The controller 10 includes a plurality of control modules that convert the print data from the host PC 7 into video data according to the control mode set at that time and the control code received from the host PC 7 and output the video data to the printer engine 22. . (However, the network N3, the operation unit 21, and the printer engine 22 are excluded.)

The operation unit 21 accepts an operation by the user, and displays the settings of the main body of the image forming apparatus 1 and the state according to the input.
The communication I / F 11 is an interface for performing communication with the host PC 7.
The PROGRAM ROM 12 stores data management in the controller 10 and programs for controlling peripheral modules.
The FONT ROM 13 stores various types of font data used for printing.
The operation unit I / F 14 is an interface for the operation unit 21 and outputs operation data input by the user via the operation unit 21 to the CPU 16.
The HDD 15 is a hard disk drive and temporarily stores image data.
The CPU 16 processes data (print data, control data) received from the host PC 7 according to the control program read from the PROGRAM ROM 12.

The RAM 17 functions as a work memory for the CPU 16 and is a buffer that temporarily stores data received from the host PC 7. The RAM 17 is used as a memory that processes data stored in the buffer.
The NV-RAM 18 is a nonvolatile RAM for storing data that is to be retained even when the power of the image forming apparatus 1 main body is turned off.
The engine I / F 19 is an interface for controlling the printer engine 22 from the controller 19.
The printer engine 22 controls the head based on a signal from the controller 10, and forms an image on the transfer paper by feeding the transfer paper from the paper supply unit.
The WOL function unit 20 has a Wake on LAN function, and turns on the image forming apparatus 1 when receiving an activation packet transmitted via a wired LAN network.

<Server>
FIG. 3 is a block diagram showing a hardware configuration of the server 3 shown in FIG.
The server 3 includes a controller 30 that controls the main body of the server 3 and is connected to the external network N1.
The controller 30 receives the MAC address and device setting value of the image forming apparatus 1 set by the service engineer, stores the received MAC address and device setting value, and associates the MAC address with the device setting value (identification information). Is a general term for control functions for packaging automatic setting applications and is composed of the following modules.
The communication I / F 31 is an interface that performs communication with the PC 3 via the network N1.
The program ROM 32 stores data processing and data management in the controller 30 and programs for controlling peripheral modules.

The HDD 33 is a hard disk drive for holding data.
The CPU 34 performs data processing according to the program read from the PROGRAM ROM 32.
The RAM 35 is used as a work memory or the like for the CPU 34 to perform data processing.
The NV-RAM 36 is a non-volatile RAM for storing data to be retained even when the power of the server 3 main body is turned off.

<Functional configuration and operation of server 3>
FIG. 4 is a block diagram showing functional configurations and operations of the server 3 and the PC 5 in the printing system shown in FIG.
The CPU 34 provided in the server 3 shown in FIG. 3 reads the operating system OS from the PROGRAM ROM 32, expands it on the RAM 35 and starts the OS. Under the management of the OS, a program (processing module) of application software from the PROGRAM ROM 32. 4 is executed and various processes are executed to realize the control unit 40 shown in FIG.
The control unit 40 has a module configuration including a device setting unit 41, an ID management unit 42, and a package generation unit 43. The storage unit 33a is configured by the HDD 33 and has a storage area.
The device setting unit 41 receives a device MAC value (an example of a physical address, the same applies hereinafter) and a device setting value transmitted from the PC 5.
The device setting unit 41 stores the MAC address and device setting value of the device received from the PC 5 in the storage area of the storage unit 33a.
The ID management unit 42 generates a unique ID (identification information) for the MAC address and device setting value stored by the device setting unit 41 and stores it in the storage area. As a result, device setting information including the device MAC address, device setting information, and unique ID is stored in the storage area. Then, the ID management unit 42 returns the ID to the transmission source of the received MAC address and device setting information.
The package generation unit 43 generates an automatic setting package from the ID in the automatic setting application and the device setting information, and transmits a completion message indicating that the automatic setting package has been generated to the PC 5.

<Functional configuration and operation of PC5>
The CPU 5b provided in the PC 5 shown in FIG. 1 reads the operating system OS from the ROM 5c, expands it on the RAM 5d, and starts the OS.
The PC 5 is provided with a USB interface 55, and a USB memory 57 that is an external storage device is connected to the USB interface 55. In the storage unit 57a of the USB memory 57, an automatic setting application program 58a and an ID (identification information) 58b can be stored in the media storage area.
When the service engineer 49 connects the USB memory 57 to the USB interface 55 provided in the PC 5, under the OS management described above, the CPU 5b provided in the PC 5 loads the automatic setting application program 58a stored in the USB memory 57 into the RAM 5d. Install and run on. In response to the execution of the automatic setting application program 58a, as shown in FIG. 4, the control unit 50 and the information transmission unit 51 and the information acquisition unit 52 are developed in the control unit 50 on the RAM.
When the control unit 50 is activated, a menu screen is displayed on the monitor 5e on the PC 5.
When the service engineer 49 uses the mouse to click the information transmission mode displayed on the menu screen, the MAC address column, the device setting value column, and the transmission button of the device delivered to the customer are displayed.

When the information transmission unit 51 inputs values in the MAC address field and the device setting value field and clicks the transmission button, the MAC address and the device setting value are addressed to the URL address of the server 3 via the networks N2 and N1. And are sent.
For example, the PC 5 may have a user interface UI and can be input by a service engineer 49 from a browser, or may be an application programming interface API (Application Programming Interface) that can be called from an external program.

In step S <b> 10, the device setting unit 41 receives the device MAC address and device setting value transmitted from the PC 5.
In step S20, the device setting unit 41 stores the MAC address and device setting value of the device received from the PC 5 in the storage area of the storage unit 33a.
In step S30, the ID management unit 42 generates a unique ID (identification information) for the MAC address and device setting value stored by the device setting unit 41, and stores the generated ID in the storage area. As a result, device setting information including the device MAC address, device setting information, and unique ID is stored in the storage area.
Then, the ID management unit 42 returns the ID to the transmission source of the received MAC address and device setting information.
In step S40, the package generation unit 43 generates an automatic setting package from the ID in the automatic setting application and the device setting information, and transmits a completion message indicating that the automatic setting package has been generated to the PC 5.

As shown in FIG. 4, the PC 5 which is an in-house environment has a media storage area.
The media storage area 57 a is a storage area of the USB memory 57. In place of the USB memory 57, an SD card may be used.
The media storage area 57a stores an automatic setting package 58, an automatic setting application 58a, and an ID 58b. The ID will be described later.
The browser function is activated on the PC 5, and in step S50, the information acquisition unit 52 provided in the PC 5 automatically receives the completion message indicating that the automatic setting package has been generated from the server 3 from the server 3. The setting package is downloaded and stored in the media storage area of the USB memory 57. As a result, in the media storage area of the USB memory 57, an automatic setting application and ID (identification information) are stored as an automatic setting package.
In step S <b> 60, the service engineer 49 extracts the USB memory 57 connected to the PC 5 and acquires the USB memory 57.
Thus, the device setting value and the MAC address of the image forming apparatus 1 that is the setting target of the device setting value are transmitted to the server 3, and the ID in which the MAC address and the device setting value are associated is acquired from the server 3. Thus, the ID associated with the MAC address of the image forming apparatus 1 and the device setting value can be acquired from the server 3.

<Functional Configuration and Operation of Image Forming Apparatus 1, Server 3, and Host PC 7>
FIG. 5 is a block diagram showing functional configurations and operations of the image forming apparatus 1, the server 3, and the host PC 7 in the printing system shown in FIG.
The service engineer 49 is connected to work performed after moving to the customer environment, operation in the printing system, and the like.
As described above, the automatic setting package and the ID are stored in the media storage area of the USB memory held by the service engineer 49.
In step S70, the service engineer 49 connects the USB memory 57 to the host PC 7 arranged in the customer company, and turns on the power of the host PC 7.
The CPU 7b provided in the host PC 7 shown in FIG. 1 reads the operating system OS from the ROM 7c, develops it on the RAM 7d, and starts the OS. Then, the CPU 7b activates and executes an automatic setting application in the automatic setting package of the USB memory 57 under OS management.
When the automatic setting application is executed in the host PC 7, the control unit 60 shown in FIG. 5 is activated. The control unit 60 has a module configuration including an information transmission unit 61, an information acquisition unit 62, a power-on request transmission unit 63, a free IP address specifying unit 64, a free IP address transmission unit 65, and a device setting information transmission unit 66. Yes.

In step S <b> 80, the host PC 7 executes the automatic setting application to read the ID stored in the USB memory 57 and send it to the URL of the server 3.
In step S90, the ID management unit of the server 3 acquires device setting information corresponding to the ID from the storage area based on the ID received from the host PC 7.
In step S <b> 100, the ID management unit of the server 3 transmits the device setting information acquired from the storage area to the host PC 7, so that the host PC 7 can download the device setting information from the server 3.
In step S <b> 110, the host PC 7 transmits an activation packet to the image forming apparatus 1.

In the image forming apparatus 1 shown in FIG. 5, the WOL function unit 20 has a Wake on LAN function, and the WOL function unit 20 is connected to the automatic setting application of the host PC 7 with a wired LAN cable inserted and energized. When the activation packet is received, the image forming apparatus 1 is turned on.
In step S <b> 120, the host PC 7 transmits a free IP address to the image forming apparatus 1. The setting application unit 24 sets the IP address received from the automatic setting application of the host PC 7 in the image forming apparatus 1.
In step S <b> 130, the host PC 7 transmits device setting information to the image forming apparatus 1. The setting application unit 24 sets the device setting information received from the automatic setting application of the host PC 7 in the image forming apparatus 1.

Here, the Wake-on-LAN and the activation packet will be described.
Wake-on-LAN is a function for turning on the power of a computer via a LAN. When a start packet is transmitted from a host PC 7 to a Wake-on-LAN compatible network adapter (for example, a LAN card). The network adapter receives the activation packet, and the power is turned on.
The start packet is 0xff-0xff-0xff-0xff-0xff-0xff (6 bytes) and the MAC address (6 bytes) of the network adapter of the host PC 7 that is the target of WOL, which is a total of 102 bytes. The start packet is broadcast to the target network.
When the network adapter receives a startup packet that matches its own MAC address, the network adapter turns on the power.

<Server storage area>
FIG. 6 is a diagram showing information stored in the storage area of the server 3 shown in FIG.
In the storage area 33a of the server 3, an automatic setting application 33b and device setting information [1] 33c1 to [3] 33c3 are stored.
The automatic setting application 33b is an executable EXE file. exe.
The device setting information [1] 33c1 to [3] 33c3 is a text file in which the MAC address of the device, device setting information, and a unique ID are associated with each other, for example, devicessettinginfo_1. txt. In the device setting information, the number of devices delivered (the number of device MAC addresses) is stored in the storage area.

The MAC address of the device is a general MAC address, and is a physical address that is uniquely assigned to the hardware of the network device such as a LAN card set to identify each node on the network. That is, as described above, in the present embodiment, the MAC address is an example of a physical address.
The device setting information [1] 33c1 to [3] 33c3 is a value that can be set on the device panel, and describes the default when not changing the setting, and the device setting information when setting something.
The ID may be a uniquely set value and may be different from other IDs. In the example shown in FIG. 7, the number is 6 digits, but an ID such as UUID (Universally Unique Identifier) that can ensure uniqueness may be used. The UUID is an identifier for uniquely identifying an object on software, and is a 128-bit numerical value.

<Data structure>
FIG. 7 is a schematic diagram showing a data structure of the automatic setting application and device setting information stored in the storage area shown in FIG.
In the storage area, as an automatic setting application, for example, susetting. exe is stored.
Further, the storage area stores a MAC address, a plurality of device setting values, and an ID as device setting information.
The device set values may be set values such as system settings, basic settings, default values, paper settings, tray 1, B5, and the like.
The device setting values include copy settings, printer settings, fax settings, scanner settings, and the like.
For example, abc123 is stored as the ID. The ID is information obtained by converting the ID stored in the storage area of the server 3 into a text file. txt.

<Media storage area of PC5 (in-house environment) and host PC7 (customer environment)>
FIG. 8 is a diagram showing a configuration of an automatic setting package which is a processing module stored in the media storage area of the PC 5 (in-house environment) and the host PC 7 (customer environment).
The automatic setting package 58 is a ZIP file of the automatic setting application 58a and the ID 58b. For example, the autosetting package. zip.
The automatic setting application 58a is the same as the automatic setting application 33b saved in the storage area of the server 3, and is an executable EXE file. For example, susetting. exe.
The automatic setting application 58a has the following functions.
When the automatic setting application 58a is executed, the information transmission unit 61 transmits the ID to the ID management unit 42 of the server 3, and then the information acquisition unit 62 sets the number of devices corresponding to the number of IDs from the package generation unit 43. Receive configuration information.

The power-on request transmission unit 63 generates an activation packet based on the MAC address included in the device setting information, and transmits it by broadcast on the same network N3. This is repeated by the number of device setting information.
The free IP address specifying unit 64 searches the same network N3 as the IP address to which the PC is connected using the Windows Address Resolution Protocol (ARP) command, and uses which IP address is currently used. The IP address that has been switched from the unused state to the used state after the automatic setting application is activated is specified.
The free IP address transmission unit 65 transmits the specified IP address (an example of a logical address; the same applies hereinafter) to the device.
The device setting information transmission unit 66 receives MIB (Management Information Base) information (status and output information (MAC address) including the state and output information (MAC address) described in accordance with the specifications of the image forming apparatus 1 from the image forming apparatus 1 that is the transmission destination of the IP address. Hereinafter, the management setting information is acquired, and the device setting value corresponding to the MAC address included in the management information is transmitted to the image forming apparatus 1.

<Media storage area>
FIG. 9 is a diagram showing a data configuration stored in the media storage area.
In addition to the automatic setting package 58 described above, the following information is stored in the media storage area 57a.
The device setting information [1] 58c1 to [3] 58c3 is the same information stored in the server 3, and is downloaded from the server 3 and stored by the automatic setting application 58a.
A text file in which a MAC address of a device, device setting information, and a unique ID are associated with each other, for example, devicessettinginfo_1. txt.

<Download>
FIG. 10 is a sequence diagram showing a procedure until the automatic setting package 58 is downloaded from the server 3 in the printing system according to the first embodiment of the present invention.
<When there is one device>
A case will be described in which the service engineer 49 delivers only one device (image forming apparatus) to the customer side.
In step S210, the service engineer 49 accesses the server 3 using a browser installed in the PC 5. Using the UI screen of the device setting unit 41 of the server 3, the MAC address of the device (image forming apparatus 1) delivered to the customer and the device setting value are input.
In step S220, the device setting unit 41 stores the MAC address and device setting value in the storage area of the server 3 as device setting information.

In step S230, the device setting unit 41 notifies the ID management unit 42 that the MAC address and the device setting value are stored as device setting information.
In step S240, the ID management unit 42 issues a unique ID, adds the ID to the device setting information in the storage area of the server 3 and stores it, thereby associating the MAC address and the device setting value using the ID. .
In step S250, the ID management unit 42 notifies the package generation unit 43 of the ID.

In step S260, the package generation unit 43 generates an ID file, and creates the automatic setting package 58 by combining the ID file with the automatic setting application read from the storage area of the server 3.
In steps S270 to S290, the automatic setting package 58 is sent from the package generation unit 43 to the ID management unit 42, the device setting unit 41, and the browser of the PC 5, and downloaded to the PC 5.
In step S300, the service engineer 49 copies the automatic setting package 58 downloaded to the PC 5 to the USB memory 57 (media).

<When there are multiple devices>
A case where there are a plurality of devices (image forming apparatuses 1) delivered to the customer side by the service engineer 49 will be described.
In step S <b> 210, the service engineer 49 inputs MAC addresses corresponding to the number of devices to be delivered using the UI screen included in the device setting unit 41 of the server 3.
In step S220, the device setting unit 41 stores device setting information in the storage area of the server 3 for each MAC address.
In step S <b> 240, the device setting unit 41 adds an ID to all the device setting information stored in the storage area of the server 3 and stores it.
The processing after step S250 is the same as in the case of one unit.

<Automatic startup and setting of image forming apparatus>
FIG. 11 is a sequence diagram showing a procedure from automatically starting and setting the image forming apparatus 1 in the customer environment in the printing system according to the first embodiment of the present invention.
<When there is one device>
A case will be described in which the service engineer 49 delivers only one device (image forming apparatus 1) to the customer side.
In step S400, the service engineer 49 connects the USB memory (media) 57 to the PC 7 in the customer environment.
In step S410, the service engineer 49 decompresses the automatic setting package 58 in the USB memory 57 connected to the PC 7 on the RAM, executes the automatic setting application 58a, and executes each part of the control unit 60 shown in FIG. expand.

In step S420, the automatic setting application (information transmission unit 61) reads the ID from the ID file in the automatic setting package and transmits the ID to the ID management unit 42 of the server 3.
In step S430, the ID management unit 42 acquires device setting information having an ID that matches the transmitted ID from the storage area of the server 3, and transmits the device setting information to the PC 7.
In step S435, the automatic setting application (information acquisition unit 62) acquires device setting information from the server 3.

In step S440, the automatic setting application (power-on request transmission unit 63) generates a start packet based on the MAC address of the acquired device setting information, and transmits the start packet by broadcast on the same network. Is transmitted to the image forming apparatus 1.
In step S450, the image forming apparatus 1 receives the activation packet, confirms that its own MAC address is included 16 times in the activation packet, and turns on the power.
In this way, by generating a power-on request based on the acquired MAC address, it is possible to power on the image forming apparatus 1 and improve the working efficiency for the image forming apparatus 1.
In step S460, the automatic setting application (free IP address specifying unit 64) uses the address resolution protocol ARP command to search for a free IP address that is not used on the network N3.

The address resolution protocol is used to search before and after the image forming apparatus 1 is turned on, and the IP address assigned to the image forming apparatus 1 by DHCP is specified from the use / nonuse state of the IP address.
In step S <b> 470, the automatic setting application (free IP address transmission unit 65) transmits an unused IP address to the image forming apparatus 1.

In step S480, the image forming apparatus 1 sets the IP address received from the PC 7 as its own fixed IP address.
In step S490, the automatic setting application (device setting information transmission unit 66) acquires management information including the MAC address of the image forming device 1 from the image forming device 1, and device setting information that matches the MAC address in the management information. Are transmitted to the image forming apparatus 1.
In step S500, the image forming apparatus 1 sets the device setting information as its own device setting information.
Thereby, management information including the MAC address of the image forming apparatus 1 is acquired from the image forming apparatus 1 that is the destination of the IP address, and the device setting value corresponding to the MAC address included in the management information is formed as an image. By transmitting to the apparatus 1, the device setting value can be set in the image forming apparatus 1, and the working efficiency for the image forming apparatus 1 can be improved.

<When there are multiple devices>
A case where there are a plurality of devices (image forming apparatuses 1) delivered to the customer side by the service engineer 49 will be described.
In step S430, the ID management unit 42 acquires all device setting information having an ID that matches the transmitted ID from the storage area of the server 3, and transmits it to the automatic setting application (information acquisition unit 62).
In step S440, the automatic setting application (power-on request transmission unit 63) generates a start-up packet from the MAC address of the acquired device setting information and transmits it by broadcast on the same network. This is repeated for the device setting information.

In step S <b> 470, the automatic setting application (free IP address transmission unit 65) transmits a free IP address that is not used to all the image forming apparatuses 1.
In step S490, the automatic setting application (device setting information transmission unit 66) acquires management information including the MAC address of the image forming device 1 from the image forming device 1, and device setting information that matches the MAC address in the management information. Are transmitted to the image forming apparatus 1. This is repeated for all the image forming apparatuses 1.
Note that the processes other than steps S430, S440, S470, and S490 are the same as in the case where the number of the image forming apparatus 1 is one.

As described above, the MAC address and the device setting value are acquired from the server 3 that manages the device setting value set in the image forming device 1 and the MAC address of the image forming device 1 in association with each other, and the image forming device having the MAC address. 1 is transmitted via the network N3 to which the image forming apparatus 1 belongs and a power-on notification is received from the image forming apparatus 1 activated in response to the power-on request. By specifying an IP address that is not used in the network N3 and transmitting the specified IP address to the image forming apparatus 1, the power to the image forming apparatus 1 is turned on and the IP address to the image forming apparatus 1 is set. Therefore, the working efficiency for the image forming apparatus 1 can be improved.
As described above, the server 3 includes the PC 7 (device setting device) and the server 3 that manages the device setting value set in the image forming device 1 and the MAC address of the image forming device 1 in association with each other. The device setting value set in the image forming apparatus 1 and the MAC address of the image forming apparatus 1 can be managed in association with each other.

Second Embodiment
FIG. 12 is a diagram showing a system configuration of a printing system according to the second embodiment of the present invention.
In the printing system 100 according to the first embodiment, as shown in FIG. 1, the image forming apparatus 1, the cloud server 3, the PC 5, and the host PC 7 are connected to a network N such as the Internet.
In contrast, in the printing system 200 according to the second embodiment, a device automatic setting method when the host PC 7 and the image forming apparatus 1 are connected only to the internal network N4 that is a customer environment. explain.
The hardware configurations of the image forming apparatus 1 and the server 3 used in the second embodiment are the same as those in the first embodiment, and a description thereof will be omitted.

<Functional Configuration and Operation of Server 3 and PC 5>
FIG. 13 is a block diagram showing functional configurations and operations of the server 3 and the PC 5 in the printing system 200 shown in FIG.
Since the operations in steps S10 to S30 are the same as those in the first embodiment, the description thereof is omitted.
In step S40, the package generation unit 43 generates an automatic setting package from the ID in the automatic setting application and the device setting information, and transmits a completion message indicating that the automatic setting package has been generated to the PC 5.
The browser function is activated on the PC 5, and in step S50B, when the information acquisition unit 52 provided in the PC 5 receives a completion message indicating that the automatic setting package has been generated from the server 3, the information acquisition unit 52 automatically Download the configuration package.
The information acquisition unit 52 stores the automatic setting package downloaded from the server 3 in the media storage area of the USB memory 157. As a result, in the media storage area 157 of the USB memory 157, an automatic setting application 158a and device setting information 158c are stored as an automatic setting package 158.
In step S <b> 60, the service engineer 49 extracts the USB memory 157 connected to the PC 5 and acquires the USB memory 157.

<Functional Configuration and Operation of Image Forming Apparatus 1 and Host PC 7>
FIG. 14 is a block diagram showing functional configurations and operations of the image forming apparatus 1 and the host PC 7 in the printing system 200 shown in FIG.
As described above, the automatic setting package is stored in the media storage area in the USB memory 157 held by the service engineer 49.
In step S70, the service engineer 49 connects the USB memory 157 to the USB interface 67 of the host PC 7, turns on the power of the host PC 7, and starts the automatic setting application 158a in the automatic setting package 158 in the USB memory 157. Run.
When the automatic setting application is executed in the host PC 7, the control unit 70 is activated. The control unit 70 has a module configuration including an information acquisition unit 72, a power-on request transmission unit 63, a free IP address specification unit 64, a free IP address transmission unit 65, and a device setting information transmission unit 66.
The second embodiment is characterized in that the information acquisition unit 72 has a module configuration.
The information acquisition unit 72 acquires device setting information and the MAC address of the device from the USB memory 157.

In step S <b> 110, the host PC 7 transmits an activation packet to the image forming apparatus 1.
In the image forming apparatus 1 shown in FIG. 5, the WOL function unit 20 has a Wake on LAN function. The WOL function unit 20 turns on the image forming apparatus 1 when receiving a start-up packet from the automatic setting application of the host PC 7 with the wired LAN cable inserted and energized.
In step S <b> 120, the host PC 7 transmits a free IP address to the image forming apparatus 1. The setting application unit 24 sets the IP address received from the automatic setting application 158 a of the host PC 7 in the image forming apparatus 1.
In step S <b> 130, the host PC 7 transmits device setting information to the image forming apparatus 1. The setting application unit 24 sets the device setting information received from the automatic setting application 158 a of the host PC 7 in the image forming apparatus 1.

<Media storage area>
FIG. 15 is a diagram showing information stored in the media storage area of the USB memory shown in FIG.
An automatic setting package 158 is stored in the media storage area 157a of the USB memory 157. The automatic setting package 158 stores an automatic setting application 158a and device setting information [1] to [3].
The automatic setting package 158 is a file in which automatic setting application 158a and device setting information files corresponding to the number of devices delivered are collected into a ZIP file. For example, autosetting package. zip.
The automatic setting application 158a is the same as the automatic setting application stored in the storage area of the server 3, and as executable EXE files, for example, susetting. exe.
The automatic setting application 158a is not application software for communicating with the server 3, but has the following functions. That is, the automatic setting application 158a executes on the host PC 7 to develop each unit of the control unit 70 shown in FIG.
At this time, as the control unit 70, a module configuration including an information acquisition unit 72, a power-on request transmission unit 63, a free IP address specification unit 64, a free IP address transmission unit 65, and a device setting information transmission unit 66 is developed.

  The device setting information is a text file in which the MAC address of the device, device setting information, and a unique ID are associated with each other. txt. In the device setting information, the number of devices delivered (= the number of device MAC addresses) is stored.

<Download automatic configuration package>
FIG. 16 is a sequence diagram showing a procedure until the automatic setting package is downloaded from the server 3 in the printing system according to the second embodiment of the present invention.
Since the operations in steps S210 to S300 are the same as those in the first embodiment, a part of the description is omitted.
In step S260, the package generation unit 43 creates an automatic setting package 158 by combining all of the automatic setting application 158a for the storage area of the server 3 and the device setting information corresponding to the ID notified from the ID management unit 42.
The same applies to one or more devices (image forming apparatus 1) delivered to the customer side by the service engineer 49.
In step S300, the service engineer 49 copies the automatic setting package 158 downloaded to the PC 5 to the USB memory 157 (media).

<Automatic startup and setting of image forming apparatus>
FIG. 17 is a sequence diagram showing a procedure for automatically starting and setting the image forming apparatus 1 in the customer environment in the printing system according to the second embodiment of the present invention.
A case will be described in which the service engineer 49 delivers only one device (image forming apparatus 1) to the customer side.
In step S600, the service engineer 49 connects the USB memory (media) 157 to the PC 7 in the customer environment.
In step S610, the service engineer 49 decompresses the automatic setting package in the USB memory 157 connected to the PC 7, and executes the automatic setting application.
At this time, as the control unit 70, a module configuration including an information acquisition unit 72, a power-on request transmission unit 63, a free IP address specification unit 64, a free IP address transmission unit 65, and a device setting information transmission unit 66 is developed.

In step S615, the automatic setting application (information acquisition unit 72) acquires the device setting information and the MAC address of the device from the USB memory 157.
In step S620, the automatic setting application (power-on request transmission unit 63) generates a start-up packet based on the MAC address of the device setting information in the automatic setting package, and transmits it by broadcast on the same network. The activation packet is transmitted to the image forming apparatus 1.
In step S630, the image forming apparatus 1 receives the activation packet, confirms that its own MAC address is included 16 times in the activation packet, and turns on the power.

In step S640, the automatic setting application (free IP address specifying unit 64) uses the address resolution protocol ARP command to search for an unused IP address.
Here, the network is searched at timings before and after the power of the image forming apparatus 1 is turned on, and the IP address assigned to the image forming apparatus 1 is specified by DHCP based on the use status or non-use status of the IP address. Keep it.
In step S650, the automatic setting application (free IP address transmission unit 65) transmits an unused IP address to the image forming apparatus 1.
In step S660, the image forming apparatus 1 sets the IP address as its own fixed IP address.
In step S670, the automatic setting application (device setting information transmission unit 66) acquires management information including the MAC address of the image forming device 1 from the image forming device 1, and device setting information that matches the MAC address in the management information. In step S680, the image forming apparatus 1 sets the device setting information as its own device setting information.

A case where there are a plurality of devices (image forming apparatuses 1) delivered to the customer side by the service engineer 49 will be described.
In step S640, the automatic setting application (power-on request transmission unit 63) generates a start-up packet from the MAC address of the device setting information in the automatic setting package and transmits it by broadcast on the same network. This is repeated for the device setting information.

In step S650, the automatic setting application (free IP address transmission unit 65) transmits a free IP address that is not used to all the image forming apparatuses 1.
In step S670, the automatic setting application (device setting information transmission unit 66) acquires management information including the MAC address of the image forming device 1 from the image forming device 1, and device setting information that matches the MAC address in the management information. Are transmitted to the image forming apparatus 1. This is repeated for all the image forming apparatuses 1.
Note that processes other than steps S640, S650, and S670 are the same as in the case where the number of image forming apparatuses 1 is one.

As described above, the MAC address and the device setting value are acquired from the USB memory 157 that stores the device setting value set in the image forming device 1 and the MAC address of the image forming device 1 in association with each other, and image formation having the MAC address is performed. After transmitting a power-on request for requesting power-on to the apparatus 1 via the network N4 to which the image forming apparatus 1 belongs, and after receiving a power-on notification from the image forming apparatus 1 activated in response to the power-on request Then, an IP address that is not used in the network N4 is specified, and the specified IP address is transmitted to the image forming apparatus 1, thereby turning on the power to the image forming apparatus 1 and setting the IP address to the image forming apparatus 1. Therefore, the working efficiency for the image forming apparatus 1 can be improved.
The storage means is a USB memory 157 (external storage device). By connecting the USB memory 157 to the PC 7 arranged in the customer environment, for example, the MAC address and the device setting value are acquired from the USB memory 157, and the image forming apparatus 1 having the MAC address is turned on. An IP address that is not used in the network N4 after transmitting a requested power-on request via the network N4 to which the image forming apparatus 1 belongs and receiving a power-on notification from the image forming apparatus 1 activated in response to the power-on request And the specified IP address can be transmitted to the image forming apparatus 1, the power to the image forming apparatus 1 can be turned on, and the IP address can be set to the image forming apparatus 1. The working efficiency can be improved.
As described above, the server 3 includes the PC 7 (device setting device) and the server 3 that manages the device setting value set in the image forming device 1 and the MAC address of the image forming device 1 in association with each other. The device setting value set in the image forming apparatus 1 and the MAC address of the image forming apparatus 1 can be managed in association with each other.

<Summary of effects and effects of this embodiment>
The PC 7 (apparatus setting apparatus) of this aspect is a PC 7 (apparatus setting apparatus) that sets an apparatus setting value and an IP address related to the operation of the image forming apparatus 1 in the image forming apparatus 1, and is set in the image forming apparatus 1. The information acquisition unit 62 that acquires the MAC address and the device setting value from the server 3 that manages the device setting value and the MAC address of the image forming device 1 in association with each other, and the power source for the image forming device 1 that has the MAC address. After receiving a power-on request transmission unit 63 that transmits a power-on request for requesting power-on via the network N3 to which the image forming apparatus 1 belongs, and a power-on notification from the image forming apparatus 1 activated in response to the power-on request. A free IP address specifying unit 64 that specifies an IP address that is not used in the network N3, and the specified IP address to the image forming apparatus 1 A vacant IP address sending unit 65 for signal, characterized in that it comprises a.
According to this aspect, the MAC address and the device setting value are acquired from the server 3 that manages the device setting value set in the image forming device 1 and the MAC address of the image forming device 1 in association with each other, and the image having the MAC address A power-on request for requesting power-on is transmitted to the forming apparatus 1 via the network N3 to which the image forming apparatus 1 belongs, and a power-on notification is received from the image forming apparatus 1 activated in response to the power-on request. Later, an IP address that is not used in the network N3 is specified, and the specified IP address is transmitted to the image forming apparatus 1, thereby turning on the power to the image forming apparatus 1 and setting the IP address to the image forming apparatus 1. And the working efficiency for the image forming apparatus 1 can be improved.

The PC 7 (apparatus setting apparatus) of this aspect is a PC 7 (apparatus setting apparatus) that sets an apparatus setting value and an IP address related to the operation of the image forming apparatus 1 in the image forming apparatus 1, and is set in the image forming apparatus 1. The information acquisition unit 72 that acquires the MAC address and the device setting value from the USB memory 157 (storage unit) that stores the device setting value and the MAC address of the image forming apparatus 1 in association with each other, and the image forming apparatus that has the MAC address 1, a power-on request transmitting unit 63 that transmits a power-on request for requesting power-on via the network N4 to which the image forming apparatus 1 belongs, and the image forming apparatus 1 activated in response to the power-on request. After receiving the input notification, the free IP address specifying unit 64 that specifies an IP address that is not used in the network N4, and the specified IP Characterized in that it comprises a free IP address transmitting unit 65 to transmit the address to the image forming apparatus 1, a.
According to this aspect, the MAC address and the device setting value are acquired from the USB memory 157 that stores the device setting value set in the image forming device 1 and the MAC address of the image forming device 1 in association with each other, and has the MAC address. A power-on request for requesting power-on to the image forming apparatus 1 is transmitted via the network N4 to which the image forming apparatus 1 belongs, and a power-on notification is received from the image forming apparatus 1 activated in response to the power-on request. After that, an IP address that is not used in the network N4 is specified, and the specified IP address is transmitted to the image forming apparatus 1, thereby turning on the power to the image forming apparatus 1 and the IP address to the image forming apparatus 1 Settings can be made and work efficiency for the image forming apparatus 1 can be improved.

Further, the PC 7 (device setting device) of this aspect includes a power-on request transmission unit 63 (generation unit) that generates a power-on request based on the MAC address acquired by the information acquisition unit 62.
According to this aspect, by generating a power-on request based on the acquired MAC address, it is possible to power on the image forming apparatus 1 and to improve work efficiency for the image forming apparatus 1. .

Further, the PC 7 (apparatus setting device) of this aspect acquires management information including the MAC address of the image forming apparatus 1 from the image forming apparatus 1 that is the transmission destination of the IP address, and the MAC address included in the management information. Is provided with a device setting information transmission unit 66 that transmits a device setting value corresponding to the above to the image forming apparatus 1.
According to this aspect, the management information is acquired from the image forming apparatus 1 that is the transmission destination of the IP address, and the device setting value corresponding to the MAC address included in the management information is transmitted to the image forming apparatus 1. The device setting values can be set in the image forming apparatus 1, and the working efficiency for the image forming apparatus 1 can be improved.

In addition, the PC 5 (device setting device) of this aspect includes a device setting value and an information transmission unit 51 that transmits the MAC address of the image forming device 1 that is a setting target of the device setting value to the server 3, and the MAC address and the device setting value. And an information acquisition unit 52 for acquiring an ID (identification information) associated with the server 3 from the server 3.
According to this aspect, the device setting value and the MAC address of the image forming apparatus 1 that is the setting target of the device setting value are transmitted to the server 3, and the ID associated with the MAC address and the device setting value is transmitted from the server 3. By acquiring, the ID that associates the MAC address of the image forming apparatus 1 and the device setting value can be acquired from the server 3.

The storage means of this aspect is a USB memory 157 (external storage device).
According to this aspect, the storage means is the USB memory 157 (external storage device). By connecting the USB memory 157 to the PC 7 arranged in the customer environment, for example, the MAC address and the device setting value are acquired from the USB memory 157, and the image forming apparatus 1 having the MAC address is turned on. An IP address that is not used in the network N4 after transmitting a requested power-on request via the network N4 to which the image forming apparatus 1 belongs and receiving a power-on notification from the image forming apparatus 1 activated in response to the power-on request And the specified IP address can be transmitted to the image forming apparatus 1, the power to the image forming apparatus 1 can be turned on, and the IP address can be set to the image forming apparatus 1. The working efficiency can be improved.

Further, the device setting system according to this aspect includes the PC 7 (device setting apparatus) according to any one of the first to eighth aspects, the device setting value set in the image forming apparatus 1, and the MAC of the image forming apparatus 1. And a server 3 that manages addresses in association with each other.
According to this aspect, the server 3 includes the PC 7 (device setting device) and the server 3 that manages the device setting value set in the image forming device 1 and the MAC address of the image forming device 1 in association with each other. The device setting value set in the image forming apparatus 1 and the MAC address of the image forming apparatus 1 can be managed in association with each other.

The device setting method of this aspect is a device setting method by a PC 7 (device setting device) that sets a device setting value and an IP address related to the operation of the image forming device 1 in the image forming device 1. An information acquisition step (S435) for acquiring the MAC address and the device setting value from the server 3 that manages the device setting value to be set and the MAC address of the image forming device 1 in association with each other, and the image forming device 1 having the MAC address. On the other hand, a power-on request transmission step (S440) for transmitting a power-on request for requesting power-on via the network N3 to which the image forming apparatus 1 belongs, and power from the image forming apparatus 1 activated in response to the power-on request. An IP address specifying step (S6) for specifying an IP address not used in the network N3 after receiving the input notification 0), and IP address transmission step of transmitting the identified IP address in the image forming apparatus 1 (S470), characterized by the execution.
Since the operation and effect of the eighth aspect are the same as those of the first aspect, description thereof is omitted.

The device setting method of this aspect is a device setting method by a PC 7 (device setting device) that sets a device setting value and an IP address related to the operation of the image forming device 1 in the image forming device 1. An information acquisition step (S615) for acquiring the MAC address and device setting value from the USB memory 157 (storage means) that stores the device setting value to be set and the MAC address of the device in association with each other, and an image forming apparatus having the MAC address 1, a power-on request transmission step (S620) for transmitting a power-on request for requesting power-on via the network N4 to which the image forming apparatus 1 belongs, and the image forming apparatus 1 activated in response to the power-on request After receiving the power-on notification from the network, the IP address specifying unit that specifies an IP address that is not used in the network N4 Tsu and up (S640), and IP address transmission step of transmitting the identified IP address in the image forming apparatus 1 (S650), characterized by the execution.
Since the operation and effect of the ninth aspect are the same as those of the second aspect, description thereof is omitted.

Moreover, the program of this aspect performs each step in the apparatus setting method as described in an 8th aspect or a 9th aspect.
According to this aspect, each step can be executed by the processor.

DESCRIPTION OF SYMBOLS 1 ... Image forming apparatus, 3 ... Cloud server, 5 ... PC, 7 ... Host PC, 10 ... Controller, 20 ... WOL function part, 24 ... Setting application part, 33b ... Automatic setting application, 40 ... Control part, 41 ... Equipment Setting unit, 42 ... ID management unit, 43 ... package generation unit, 50 ... control unit, 51 ... information transmission unit, 52 ... information acquisition unit, 55 ... USB interface, 57 ... USB memory, 58 ... automatic setting package, 58a ... Automatic setting application, 58a ... automatic setting application program, 60 ... control unit, 61 ... information transmission unit, 62 ... information acquisition unit, 63 ... power-on request transmission unit, 64 ... IP address identification unit, 65 ... IP address transmission unit, 66 ... device setting information transmission unit, 67 ... USB interface, 70 ... control unit, 72 ... information acquisition unit, 100 ... printing system 157 ... USB memory, 158 ... auto-configuration package, 158a ... the application for automatically setting

JP 2014-154906 A

Claims (10)

A device setting device for setting a device setting value and a logical address related to operation of the device in the device,
Information acquisition means for acquiring a physical address and a device setting value from a server device that associates and manages the device setting value set in the device and the physical address of the device;
A power-on request transmitting means for transmitting a power-on request for requesting power-on to the device having the physical address via a network to which the device belongs;
Logical address specifying means for specifying a logical address that is not used in the network after receiving a power-on notification from a device activated in response to the power-on request;
A device setting apparatus comprising: a logical address transmission unit configured to transmit the specified logical address to the device. A device setting device for setting a device setting value and a logical address related to operation of the device in the device,
Information acquisition means for acquiring a physical address and a device setting value from storage means for storing the device setting value set in the device and the physical address of the device in association with each other;
A power-on request transmitting means for transmitting a power-on request for requesting power-on to the device having the physical address via a network to which the device belongs;
Logical address specifying means for specifying a logical address that is not used in the network after receiving a power-on notification from a device activated in response to the power-on request;
A device setting apparatus comprising: a logical address transmission unit configured to transmit the specified logical address to the device.   The apparatus setting device according to claim 1, further comprising a generating unit that generates the power-on request based on the physical address acquired by the information acquiring unit.   Transmission means for acquiring management information including a physical address of the device from a device that is a transmission destination of the logical address, and transmitting the device setting value corresponding to the physical address included in the management information to the device The apparatus setting device according to claim 1, further comprising: Second information transmitting means for transmitting the device setting value and a physical address of a device to be set to the device setting value to the server device;
The device setting device according to claim 1, further comprising: second information acquisition means for acquiring identification information in which the physical address and the device setting value are associated with each other from the server device.   6. The device setting device according to claim 2, wherein the storage unit is an external storage device. The device setting device according to any one of claims 1 to 6,
A device setting system comprising: a server device that manages a device setting value set in the device in association with a physical address of the device. A device setting method by a device setting device for setting a device setting value and a logical address related to the operation of the device to the device,
An information acquisition step for acquiring a physical address and a device setting value from a server device that manages the device setting value set in the device and the physical address of the device in association with each other;
A power-on request transmission step of transmitting a power-on request for requesting power-on to the device having the physical address via a network to which the device belongs;
A logical address specifying step of specifying a logical address that is not used in the network after receiving a power-on notification from a device activated in response to the power-on request;
And a logical address transmission step of transmitting the specified logical address to the device. A device setting method by a device setting device for setting a device setting value and a logical address related to the operation of the device to the device,
An information acquisition step for acquiring a physical address and a device setting value from storage means for storing the device setting value set in the device and the physical address of the device in association with each other;
A power-on request transmission step of transmitting a power-on request for requesting power-on to the device having the physical address via a network to which the device belongs;
A logical address specifying step of specifying a logical address that is not used in the network after receiving a power-on notification from a device activated in response to the power-on request;
And a logical address transmission step of transmitting the specified logical address to the device.   The program which performs each step in the apparatus setting method of Claim 8 or 9.

Images