JP3775360B2 - Setting system, electronic device, and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a technique for setting an electronic device based on settings of other electronic devices.
[0002]
[Prior art]
  For example, when a plurality of electronic devices are connected to the network, some or all of the plurality of electronic devices may have the same setting. In such a case, if a system administrator or the like makes settings for each electronic device, the work load related to the setting of the electronic device such as the system administrator increases. For this reason, the setting of an electronic device may be automatically performed based on the setting information of another electronic device. In the following description, an electronic device that provides setting information is referred to as an electronic device that functions as a model device.
[0003]
[Problems to be solved by the invention]
  However, when there are multiple electronic devices functioning as model devices on the network, it is possible to determine which electronic device setting information should be used for the electronic device to be set from among the multiple electronic devices functioning as model devices. There is a problem that it is difficult.
[0004]
  An object of the present invention is to provide a setting system, an electronic device, and a program capable of preventing a plurality of electronic devices functioning as model devices in one network.
[0005]
[Means for Solving the Problems]
  A setting system according to claim 1 is a setting system in which a plurality of electronic devices are communicably connected to a network, and settings relating to other electronic devices are made based on settings relating to electronic devices functioning as model devices. The electronic device, when making the electronic device function as a model device in the network, confirmation means for confirming whether there is already an electronic device that functions as a model device among the electronic devices connected to the network, When it is confirmed by the confirmation means that there is already an electronic device that functions as a model device, a determination is made to determine which of the electronic device and the electronic device that functions as the model device confirmed by the confirmation means is the model device Means,It has. It is possible to set whether or not to keep the function as the model device in the electronic device. The determination means is confirmed by the confirmation means. When the recognized electronic device is set to continue to function as a model device, the electronic device confirmed by the confirmation unit is determined as a model device, and the electronic device confirmed by the confirmation unit is a model If not configured to continue to function as a device, the model device is determined based on information from the user interfaceIt is characterized by that.
[0006]
  The electronic device according to claim 6 is a model in a setting system in which a plurality of electronic devices are communicably connected to a network, and settings for other electronic devices are made based on settings for an electronic device that functions as a model device. Whether an electronic device that can function as a device is already functioning as a model device among the electronic devices connected to the network when the electronic device functions as a new model device in the network If the confirmation unit confirms that there is already an electronic device that functions as a model device, the electronic device functioning as the model device confirmed by the confirmation unit is selected as the model device. Determining means for determining whether or not. It is possible to set whether or not to maintain the function as a model device. If the electronic device confirmed by the confirmation unit is set to maintain the function as a model device, the determination unit determines the electronic device confirmed by the confirmation unit as a model device, and the confirmation If the electronic device confirmed by the means is not set to continue to function as a model device, the model device is determined based on information from the user interface..
[0007]
  The program according to claim 7 is a model device in a setting system in which a plurality of electronic devices are communicably connected to a network, and settings relating to other electronic devices are made based on settings relating to electronic devices functioning as model devices. An electronic device that already functions as a model device among the electronic devices connected to the network when the electronic device functions as a new model device in the network. When it is confirmed that there is already an electronic device that functions as a model device by the confirmation unit that confirms whether there is an electronic device that functions as a model device, which one of the electronic device and the electronic device that functions as a model device confirmed by the confirmation unit It functions as a determination means for determining whether to use a model device. It is possible to set whether or not to keep the function as the model device in the electronic device. If the electronic device confirmed by the confirmation unit is set to maintain the function as a model device, the determination unit determines the electronic device confirmed by the confirmation unit as a model device, and the confirmation When the electronic device confirmed by the means is not set to keep the function as the model device, the model device is determined based on information from the user interface.
[0008]
  Claim 1, 6,7According to the above, when an electronic device is a new model device of the network, it is confirmed whether there is an electronic device that has already been set up as a model device. Model equipment no longer exists. As a result, automatic setting for the electronic device is easily performed. At this timeWhen an electronic device is set to continue to function as a model device, the electronic device is determined as a model device. For example, a system administrator or the like desires to continue using the model device as a model device. In such a case, it is possible to continue functioning as a model device. Furthermore, when the electronic device is not set to continue to function as a model device, a system administrator or the like can cause the electronic device desired by the user to function as the model device.
[0009]
  Claim2When the electronic device is determined as a model device by the determining unit, the setting system described in the item further includes a notification unit that notifies the other electronic device to that effect. . Claim2According to this, when a change occurs in an electronic device that functions as a model device, the other electronic device is notified of the change, so that the other electronic device can grasp that the change has occurred in the model device at an early stage. As a result, the other electronic device can quickly change its own setting information to the setting information of the electronic device that newly functions as the model device.
[0010]
  Claim3The setting system described inA detection unit that detects whether the electronic device is connected to a different network; and a release unit that releases a function as a model device when the detection unit detects that the electronic device is connected to a different network. Characterize.
[0011]
  Claim3According to the above, since the electronic device functioning as the model device releases the function as the model device connected to a different network, it is possible to prevent a plurality of model devices from existing in the network. As a result, automatic setting for the electronic device is easily performed.
[0012]
  Claim4In the setting system described in (1), the detection unit monitors an IP address of its own electronic device, and detects whether it is connected to a different network based on the monitoring result. Claim4According to the above, it is possible to easily detect whether or not the network has been changed.
[0013]
  Claim5In the setting system described in (1), the detection unit monitors a network address part of at least one IP address of a packet transmitted and received by its own electronic device, and detects whether it is connected to a different network based on the monitoring result. It is characterized by doing. Claim5According to the above, it becomes possible to easily detect whether or not there has been a network change.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
First embodiment
  Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.
[0015]
  First, a network system constituting the setting system will be described with reference to FIGS. FIG. 1 is a diagram illustrating an example of a system configuration of a network system. FIG. 2 is a diagram showing a device configuration of devices constituting the system of the network system of FIG. In the first and following embodiments, the case where the electronic device to be set is a printer will be described as an example. However, the same applies to electronic devices other than the printer.
[0016]
  As shown in FIG. 1, the network system 1a includes four identical printers 2a, 2b, 2c and 2d, two identical printers 3 and three identical desktop personal computers. 4, one notebook personal computer 5, and one router 6, each connected to a LAN (Local Area Network) 7. Each electronic device of the network system 1 a can communicate with each other via the LAN 7, and can exchange data with an electronic device outside the network system 1 a via the router 6.
[0017]
  As shown in FIG. 1, the network system 1 b includes four identical printers 12, two identical printers 13, three identical desktop personal computers 14, and one notebook. Type personal computer 15 and one router 16, each connected to a LAN 17. The electronic devices of the network system 1b can communicate with each other via the LAN 17, and can transmit and receive data to and from electronic devices outside the network system 1b via the router 16. Since the router 6 of the network system 1a and the router 16 of the network system 1b are connected to each other, the electronic device of the network system 1a and the electronic device of the network system 1b can communicate with each other.
[0018]
  However, each electronic device of the network systems 1a and 1b is a device compatible with SNMP (Simple Network Management Protocol). Here, SNMP is a management protocol in a TCP / IP (Transmission Control Protocol / Internet Protocol) network environment standardized by Internet Engineering Task Force (IETF). In this SNMP, electronic devices are managed by exchanging management information called MIB (Management Information Base) between the managing SNMP manager and the managing SNMP agent. However, the printer 2 and the printer 3 are different models. The printer 12 and the printer 13 are different models.
[0019]
  As shown in FIG. 2A, the personal computer 4, 5, 14, 15 in FIG. 1 includes a CPU 31, a ROM 32, a RAM 33, an HDD 34, an operation unit 35, a display unit 36, and an interface 37. I have.
[0020]
  A CPU (Central Processing Unit) 31 performs various calculations and processes, and functions as a central processing unit. A ROM (Read Only Memory) 32 is a read-only storage device and constitutes a part of the main storage device of the personal computers 4, 5, 14, 15. The ROM 32 stores various programs such as a system program. A RAM (Random Access Memory) 33 is a readable / writable volatile storage device, and constitutes a part of the main storage device of the personal computers 4, 5, 14, and 15 like the ROM 32. The RAM 33 has a work area for storing intermediate results of data processing. An HDD (Hard Disk Drive) 34 is a readable / writable storage device (hard disk) and its reader.
[0021]
  The operation unit 35 constitutes an input device of the personal computer 4, 5, 14, 15. The operation unit 35 is configured by a pointing device such as a keyboard or a mouse in which a predetermined number of input keys are arranged. The display unit 36 is a display device that outputs and displays information on a display or the like, and includes, for example, a liquid crystal display or a plasma display. The liquid crystal display includes a simple matrix type such as STN type and DSTN type and an active matrix type such as TFT. The interface 37 connects the personal computers 4, 5, 14, 15 to the LANs 7, 17. Between the personal computers 4, 5, 14, 15 and each device such as a printer connected to the ends of the LANs 7, 17 It enables communication.
[0022]
  As shown in FIG. 2B, the printers 2a, 2b, 2c, 2d, 3, 12, and 13 in FIG. 1 have a CPU 41 (41a, 41b,...), A ROM 42 (42a, 42b,...), And a RAM 43. (43a, 43b,...), Printing unit 44 (44a, 44b,...), Operation panel 45 (45a, 45b,...), NVRAM 46 (46a, 46b,...), And interface 47 (47a, 47b,. …).
[0023]
  The ROM 42 (42a, 42b,...) Is a read-only storage device and constitutes a part of the main storage device of the printer. In the ROM 42 (42a, 42b,...), A system program and a program for causing the printer to execute model printer determination processing (see FIG. 3) for determining a model printer so that there are not a plurality of printers functioning as model printers. Various programs are stored. A RAM (Random Access Memory) 43 (43a, 43b,...) Is a readable / writable volatile storage device and, like the ROM 42 (42a, 42b,...), Constitutes a part of the main storage device of the printer. To do. The RAM 43 (43a, 43b,...) Has a work area for storing intermediate results of data processing. The printing unit 44 (44a, 44b,...) Provides a monochrome or color character or image printing function.
[0024]
  The operation panel 45 (45a, 45b,...) Includes a display device that outputs and displays information using a display and the like, and an input device that performs an input operation from the outside. For example, a liquid crystal display or a plasma display The touch panel etc. which comprise the operation part as an input device on a display surface are comprised. In the display screen of the operation panel 45 (45a, 45b,...), In the model printer determination process (see FIG. 3), a model printer that already exists on the network and a printer that has been newly made to function as a model printer are displayed. A selection screen for allowing a system administrator or the like to select which of these functions as a model printer is displayed. Then, the user designates a printer to function as a model printer from a plurality of printers displayed on the display screen by using a touch panel provided on the operation panel 45 (45a, 45b,...).
[0025]
  An NVRAM (Non Volatile Random Access Memory) 46 (46a, 46b,...) Is a storage device that can be read and written, and can continue to store stored data without being erased even when the power is turned off. The NVRAM 46 (46a, 46b,...) Stores model flag setting contents (Enable or Disable), automatic setting flag setting contents (Enable or Disable), and lock function flag setting contents (ON or OFF). ing. The NVRAM 46 (46a, 46b,...) Has setting information (use protocol, use authority (security), registration of various use servers, language, clock, etc. provided to other printers when functioning as a model printer. Such as printer settings). Configuration information provided to other printers may be specified by a system administrator or the like. Further, model names are stored in the NVRAM 46 (46a, 46b,...). These are managed by MIB.
[0026]
  Here, the model flag is for indicating whether or not it functions as a model printer. If the setting content of the model flag is “Enable”, the printer functions as a model printer. On the other hand, if the setting content of the model flag is “Disable”, the printer does not function as a model printer.
[0027]
  The automatic setting flag is used to indicate whether or not to set the own printer based on the setting of the model printer. If the setting content of the automatic setting flag is “Enable”, the printer itself is set based on the setting of the model printer. On the other hand, if the setting content of the automatic setting flag is “Disable”, the setting of its own printer is not performed based on the setting of the model printer.
[0028]
  The lock function flag is used to indicate whether or not the function as a model printer is allowed to be transferred to another printer. If the lock function flag is “ON”, the model printer is not allowed to be transferred to another printer, that is, it continues to function as a model printer. On the other hand, if the lock function flag is “OFF”, it is allowed to transfer the position as a model printer to another printer.
[0029]
  It should be noted that the setting contents of the automatic setting flag and the lock function flag can be changed by a system administrator or the like. For example, the display unit of the operation panel 45 displays “Do you want to automatically set the printer based on the setting information of the model printer” and a corresponding check box (corresponding to the automatic setting flag), “Do you want to maintain the function as a model printer” and a corresponding check box are displayed (corresponding to the lock function flag). The system administrator or the like sets / changes the automatic setting flag and the lock function flag depending on whether the check box is checked.
[0030]
  The interface 47 (47a, 47b,...) Connects the printer to the LANs 7 and 17, and enables communication between the printer and each device such as a personal computer connected to the end of the LANs 7 and 17. .
[0031]
  The CPU 41 performs various calculations and processes, and functions as a central processing unit. The CPU 41 (41a, 41b,...) According to the present embodiment executes a model printer determination process (see FIG. 3). Here, an outline of the operation of the CPU 41 (41a, 41b,...) In the model printer determination process will be described.
[0032]
  In the model printer determination process, the CPU 41 of a printer (hereinafter, appropriately referred to as a candidate model printer) that is to function as a new model printer performs a process of acquiring model flags and lock function flags of other printers. Then, the CPU 41 confirms whether a printer already functioning as a model printer (hereinafter referred to as an existing model printer as appropriate) exists on the LANs 7 and 17 based on the setting contents of the model flag (confirming means). . When it is confirmed that there is no existing model printer, the CPU 41 determines itself (candidate model printer) as a model printer. On the other hand, when it is confirmed that the existing model printer exists, the CPU 41 determines which of the candidate model printer and the existing model printer is the model printer (decision unit).
[0033]
  In this determination, the CPU 41 first determines the existing model printer as the model printer when the lock function flag of the existing model printer is “ON” (deciding means). When the lock function flag of the existing model printer is “OFF”, the CPU 41 determines the printer designated by the user as the model printer based on information from the operation panel 45 which is one of the user interfaces (decision unit).
[0034]
  When the CPU (candidate model printer) is determined to be a model printer, the CPU 41 performs processing for notifying other printers (notification means).
[0035]
  In the model printer determination process, when there is a transmission request for the setting contents of the model flag and the setting contents of the lock function flag from the candidate model printer, the CPU 41 of the existing model printer responds by sending the setting contents of the model flag and the lock function flag. Processing to transmit the setting contents to the candidate model printer is performed. When the CPU 41 receives a notification from the candidate model printer that the candidate model printer has been determined to be a model printer, the CPU 41 performs a process of setting the model flag to “Disable” and cancels the function as the model printer.
[0036]
  Hereinafter, a model printer determination process performed in the network system 1 will be described with reference to FIG. FIG. 3 is a flowchart showing an operation flow of model printer determination processing performed in the network system 1. However, FIG. 3 is an operation flow on the printer side to newly function as a model printer. The candidate model printer is the printer 2a. If there is an existing model printer, the existing model printer is the printer 2b.
[0037]
  In step S101, the printer (candidate model printer) 2a to newly function as a model printer is controlled by the CPU 41a to set the setting contents of the model flag (Enable or Disable) and the setting contents of the lock function flag (ON or OFF). ) To request (SNMP GET).
[0038]
  Each device such as the other printers 2b, 2c, and 2d on the LAN 7 changes the setting contents of the model flag (Enable or Disable) and the setting contents of the lock function flag (ON or OFF) in response to a request from the candidate model printer 2a. In step S102, the candidate model printer 2a acquires model flag setting contents and lock function flag setting contents from another printer.
[0039]
  In step S103, the CPU 41a of the candidate model printer 2a, based on the setting contents of the model flag acquired in step S102, has the same model name that is already functioning as a model printer on the LAN 7 to which the candidate model printer 2a is connected. It is determined whether (existing model printer) 2b exists. If it is determined that the existing model printer 2b exists (S103: YES), the process proceeds to step S104. On the other hand, when it is determined that the existing model printer 2b does not exist (S103: NO), the process proceeds to step S108. Note that it is possible to determine whether or not the model names are the same by exchanging MIBs that manage the model names. Further, other information in place of the model name, for example, a vendor name or a model code may be used.
[0040]
  In step S104, the CPU 41a of the candidate model printer 2a determines whether or not the lock function flag of the existing model printer 2b is “ON” based on the setting contents of the lock function flag acquired in step S102, that is, the existing model. It is determined whether the printer 2b is set to continue to function as a model printer. If it is determined that the lock function flag is “ON” (S104: YES), the process proceeds to step S112. On the other hand, when it is determined that the lock function flag is “OFF” (S104: NO), the process proceeds to step S105.
[0041]
  In step S105, the CPU 41a of the candidate model printer 2a displays on the display screen of the operation panel 45a a selection screen that allows the system administrator or the like to select which of the candidate model printer 2a and the existing model printer 2b is the model printer. Perform the process. The system administrator or the like uses the operation panel 45a to designate a printer as a model printer, and the CPU 41a of the candidate model printer 2a determines whether the candidate model printer 2a is designated as a model printer based on a signal from the operation panel 45. Determine whether or not. If it is determined that the candidate model printer 2a is designated as a model printer (S105: YES), the process proceeds to step S106. On the other hand, if it is determined that the candidate model printer 2a has not been designated as a model printer, that is, the existing model printer 2b has been designated as a model printer (S105: NO), the process proceeds to step S112.
[0042]
  In step S106, the candidate model printer 2a is controlled by the CPU 41a to request the existing model printer 2b to set the model flag to “Disable” (SNMP SET).
[0043]
  The existing model printer 2b sets the model flag to “Disable” in response to a request from the candidate model printer 2a (the existing model printer 2b is no longer a model printer), and then indicates that the model flag is set to “Disable”. Reply (SNMP REPLY). In step S107, the candidate model printer 2a receives information that the model printer 2b has set the model flag to “Disable”.
[0044]
  In step S108, the CPU 41a of the candidate model printer 2a sets its model flag to “Enable”. As a result, the candidate model printer 2a functions as a model printer. In the following description, a printer that newly functions as a model printer will be referred to as a new model printer.
[0045]
  In step S109, the new model printer 2a is controlled by the CPU 41a to perform broadcast notifying the change of the model flag (extension of SNMP TRAP). The process in step S109 corresponds to a process for notifying that the model printer has been changed. The data to be broadcast is obtained by adding contents indicating that the model printer has been changed to SNMP TRAP.
[0046]
  Of the printers 2b, 2c, and 2d having the same model name as the new model printer 2a that has received the model flag change notification, those for which the automatic setting flag is “Enable” requests setting information from the new model printer 2a (SNMP GET). ). In step S110, the new model printer 2a receives a setting information request.
[0047]
  In step S111, the new model printer 2a is controlled by the CPU 41a and returns transmission information including setting information provided by itself (SNMP REPLY). However, the following can be considered as the processing procedure of step S111. For example, when transmission information is created in advance from setting information to be provided and a request for setting information is received, a procedure for sending back transmission information (including the setting information to be provided) sent in advance or a request for setting information For example, a procedure may be considered in which transmission information is created from the setting information provided after receiving the message, and the transmission information (including the setting information to be provided) is returned.
[0048]
  The printer that has received the setting information from the new model printer 2a performs its own setting based on the received setting information.
[0049]
  In step S112, since the CPU 41a of the candidate model printer 2a cannot become a model printer, the CPU 41a sets its model flag to “Disable”. The existing model printer 2b continues to function as a model printer. However, since the candidate model printer 2a does not function as a model printer, two or more model printers do not exist.
[0050]
  In step S113, the CPU 41a of the candidate model printer 2a that has failed to become a model printer determines whether or not its own automatic setting flag is “Enable”. If it is determined that the automatic setting flag is not “Enable”, that is, it is “Disable” (S113: Disable), the setting is not performed based on the setting information of the existing model printer 2b. On the other hand, if it is determined that the automatic setting flag is “Enable” (S113: Enable), the process proceeds to step S114.
[0051]
  In step S114, the printer 2a that was a model candidate printer is controlled by the CPU 41a to request setting information from the existing model printer 2b (SNMP GET).
[0052]
  The existing model printer 2b requested to send the setting information returns its own setting information to the printer 2a (SNMP REPLY). In step S115, the printer 2a that has not become a model printer receives the setting information from the model printer 2b. Subsequently, in step S116, the CPU 41a of the printer 2a performs its own setting based on the received setting information.
[0053]
  Hereinafter, an example of an operation sequence in the model printer determination process described above will be described.
[0054]
  First, an example of the operation sequence in FIG. 4 will be described. FIG. 4 is an example of an operation sequence in the case where a printer to be newly functioned as a model printer is a model printer. However, a printer (candidate model printer) to be newly functioned as a model printer is set as the printer 2a, a printer already functioning as a model printer (existing model printer) is set as the printer 2b, and the lock function flag of the printer 2b is “ It is assumed that it is “OFF”.
[0055]
  When the printer 2a is activated, the printer 2a is controlled by the CPU 41a to perform a broadcast requesting the setting contents of the model flag (Enable or Disable) and the setting contents of the lock function flag (ON or OFF) (S201: FIG. 3). Corresponding to S101). Under the control of the CPU 41b, the printer 2b responds to the request from the printer 2a and returns the setting content (Enable) of its own model flag and the setting content (OFF) of the lock function flag (S202). The setting contents of the model flag of the printer 2b and the setting contents of the lock function flag are received (corresponding to S102 in FIG. 3).
[0056]
  The CPU 41a of the printer 2a knows that the printer 2b is functioning as a model printer based on the received setting contents of the model flag (S203: corresponding to S103 in FIG. 3). Further, the CPU 41a of the printer 2a knows that the lock function flag of the printer 2b is “OFF” based on the received setting contents of the lock function flag (S204: corresponding to S104 in FIG. 3). The CPU 41a of the printer 2a determines itself as a model printer by the designation of the system administrator or the like (S205: corresponding to S105 in FIG. 3).
[0057]
  The printer 2a is controlled by the CPU 41a to request the printer 2b to set the model flag to “Disable” (S206: corresponding to S106 in FIG. 3). The CPU 41b of the printer 2b that has received the request from the printer 2a sets its model flag to “Disable” (S207). Thereafter, the printer 2b is controlled by the CPU 41b to send a reply to the effect that the model flag is set to “Disable” to the printer 2a (S208), and the printer 2a receives that fact (corresponding to S107 in FIG. 3). After receiving, the CPU 41a of the printer 2a sets its model flag to “Enable” (S209: corresponding to S108 in FIG. 3).
[0058]
  The printer 2a is controlled by the CPU 41a to broadcast a model flag change notification (S210: corresponding to S109 in FIG. 3). Upon receiving this model flag change notification, the printer 2b is controlled by the CPU 41b to request the printer 2a to transmit the setting information of the printer 2a (S211). When the printer 2a receives a request for setting information from the printer 2b (corresponding to S110 in FIG. 3), the printer 2a transmits its setting information to the printer 2b under the control of the CPU 41a (S212: FIG. 3 corresponds to S111 in 3). The CPU 41b of the printer 2b sets itself based on the setting information of the printer 2a sent from the printer 2a (S213).
[0059]
  Next, an example of the operation sequence in FIG. 5 will be described. FIG. 5 is an example of an operation sequence when a printer to be newly functioned as a model printer cannot be a model printer. However, a printer (candidate model printer) to be newly functioned as a model printer is set as the printer 2a, a printer already functioning as a model printer (existing model printer) is set as the printer 2b, and the lock function flag of the printer 2b is “ It shall be “ON”.
[0060]
  When the printer 2a is activated, the printer 2a performs a broadcast requesting the setting contents of the model flag (Enable or Disable) and the setting contents of the lock function flag (ON or OFF) under the control of the CPU 41a (S301: FIG. 3). Corresponding to S101). Under the control of the CPU 41b, the printer 2b responds to the request from the printer 2a and returns the setting content (Enable) of its own model flag and the value (ON) of the lock function flag (S302). The printer 2a receives the setting content of the model flag and the setting content of the lock function flag of the printer 2b (corresponding to S102 in FIG. 3).
[0061]
  The CPU 41a of the printer 2a knows that the printer 2b is functioning as a model printer based on the received setting contents of the model flag (S303: corresponding to S103 in FIG. 3). Further, the CPU 41a of the printer 2a knows that the lock function flag of the printer 2b is “ON” based on the received setting contents of the lock function flag (S304: corresponding to S104 in FIG. 3).
[0062]
  If the automatic setting flag of the printer 2a is controlled by the CPU 41a and is “Enable”, the printer 2a requests the printer 2b to transmit the setting information of the printer 2b (S305: corresponding to S114 in FIG. 3). The printer 2b requested to transmit the setting information is controlled by the CPU 41b to transmit its own setting information to the printer 2a (S306), and the printer 2a receives the setting information of the printer 2b (in FIG. 3). Corresponding to S115). When the printer 2a receives the setting information of the printer 2b from the printer 2b, the CPU 41a of the printer 2a sets itself based on the received setting information of the printer 2b (S307: corresponding to S116 in FIG. 3).
[0063]
  In the first embodiment described above, when one printer is to be a new model printer, it is checked whether there is a printer that already functions as a model printer on the LAN. The model flag is set to “Enable” to newly function as a model printer. If there is a printer that already functions as a model printer (existing model printer) and the lock function flag is “ON”, the existing model printer is used as it is as a model printer, and a printer that is newly set as a model printer is selected. Do not use a model printer. Furthermore, if there is a printer that already functions as a model printer (existing model printer) and the lock function flag is “OFF”, the model flag of the printer designated by the system administrator or the like is set to “Enable”. The printer is caused to function as a model printer, and the model flag of a printer that has not been designated is set to “Disable” so as not to function as a model printer. As described above, since the printer to function as the model printer is determined, only one model printer exists on the LANs 7 and 17. As a result, setting information can be easily obtained when the printer performs its own setting.
[0064]
  When the lock function flag of a printer that is already functioning as a model printer is “ON”, the function as a model printer is maintained as it is. Therefore, if there is a printer that the system administrator or the like wants to continue functioning as a model printer, the printer can continue to function as a model printer.
[0065]
  Further, when the lock function flag of the printer that is already functioning as the model printer is “OFF”, the printer designated by the system administrator or the like is caused to function as the model printer. Therefore, a printer desired by a system administrator or the like can be made to function as a model printer.
[0066]
  In addition, when there is a change in the printer that functions as a model printer, other printers are notified of this, so that other printers can quickly set new printer function information as model printers. It becomes possible to make its own settings based on the above.
[0067]
  Here, a modification of the operation sequence example shown in FIG. 4 will be described with reference to FIG. FIG. 6 is an example of an operation sequence when a printer that is to be newly functioned as a model printer is a model printer. However, a printer (candidate model printer) to be newly functioned as a model printer is set as the printer 2a, a printer already functioning as a model printer (existing model printer) is set as the printer 2b, and the lock function flag of the printer 2b is “ It is assumed that it is “OFF”.
[0068]
  When the printer 2a is activated, the printer 2a performs a broadcast requesting the setting contents of the model flag (Enable or Disable) and the setting contents of the lock function flag (ON or OFF) under the control of the CPU 41a (S401). Under the control of the CPU 41b, the printer 2b responds to the request from the printer 2a and returns the setting content (Enable) of its own model flag and the setting content (OFF) of the lock function flag (S402). The setting contents of the model flag of the printer 2b and the setting contents of the lock function flag are received.
[0069]
  The CPU 41a of the printer 2a knows that the printer 2b functions as a model printer based on the received setting contents of the model flag (S403). Further, the CPU 41a of the printer 2a knows that the value of the lock function flag of the printer 2b is “OFF” based on the received setting contents of the lock function flag (S404). The CPU 41a of the printer 2a determines itself as a model printer by the designation of the system administrator or the like (S405).
[0070]
  The printer 2a is controlled by the CPU 41a to request the printer 2b to set the model flag to “Disable” (S406). The CPU 41b of the printer 2b that has received the request from the printer 2a sets its model flag to “Disable” (S407). Thereafter, the printer 2b is controlled by the CPU 41b to return to the printer 2a that the model flag has been set to “Disable” (S408), and the printer 2a receives that fact. After receiving, the CPU 41a of the printer 2a sets its own model flag to “Enable” (S409).
[0071]
  The printer 2a is controlled by the CPU 41a and transmits its own setting information (S410). When the printer 2b receives the setting information of the printer 2a from the printer 2a, the CPU 41b of the printer 2b performs its own setting based on the received setting information (S411).
[0072]
  In the case of this modification, the same effect as that of the first embodiment described above can be obtained.
[0073]
Second embodiment
  The second embodiment of the present invention will be described below with reference to the drawings. In the second embodiment, the description will focus on the differences from the first embodiment.
[0074]
  The ROM 42 (42a, 42b,...) Has a program for causing the printer to execute a model function releasing process (see FIGS. 7 and 8) for releasing the function as a model printer when it is considered that it is connected to another LAN. Is stored. Further, the NVRAM 46 (46a, 46b,...) Stores an IP address change confirmation table shown as an example in FIG. In this IP address change confirmation table, the IP address (previous IP address) acquired in the previous model flag correction process (S602, FIG. 8) is registered.
[0075]
  CPU41 (41a, 41b, ...) which concerns on this Embodiment performs a model function cancellation | release process (refer FIG. 7, FIG. 8). Here, an outline of the operation of the CPU 41 (41a, 41b,...) In the model function release processing will be described. In the model function release processing, the CPU 41 compares the current IP address with the previous IP address registered in the IP address change confirmation table every 5 minutes, and if they are different, the CPU 41 is connected to another LAN. A thing is detected (detection means). When it is detected that the CPU 41 is connected to another LAN, the CPU 41 sets the model flag to “Disable” and cancels the function as the model device (release means).
[0076]
  Hereinafter, the model function cancellation process performed in the network system 1 will be described with reference to FIGS. FIG. 7 is a flowchart showing a main flow of model function release processing performed in the network system 1. FIG. 8 is a flowchart showing an operation flow of model flag correction processing in the main flow of FIG. However, the description will be made with reference to the printer 2a in FIG.
[0077]
  When the printer 2 is turned on in step 601, it is considered that in step S602, the CPU 41a of the printer 2a performs a model flag correction process described later with reference to FIG. 8, and the printer is connected to another LAN. In this case, the model flag is set to “Disable”. In step S603, the CPU 41a of the printer 2a determines based on a signal from a timer (not shown) whether, for example, 5 minutes have elapsed since the previous model flag correction process (the process of S602). If 5 minutes have not elapsed (S603: NO), the process returns to step S602 and monitoring is continued until it is determined that 5 minutes have elapsed. On the other hand, when it is determined that 5 minutes have passed (S603: YES), the process returns to the process of step S602, and the model flag correction process is executed.
[0078]
  In the model flag correction process, in step S701, the CPU 41a of the printer 2a determines whether the current IP address is different from the previous IP address (see FIG. 9) registered in the IP address change confirmation table of the NVRAM 46a. Determine whether. If it is determined that the two IP addresses are different (S701: YES), the process proceeds to step S702. On the other hand, if it is determined that both IP addresses are the same (S702: NO), the process proceeds to step S704.
[0079]
  In step S702, the CPU 41a of the printer 2a determines whether or not its model flag is “Enable”. When it is determined that the model flag is “Enable” (S702: Enable), the process proceeds to step S703. On the other hand, when it is determined that the model flag is not “Enable”, that is, “Disable” (S702: Disable), the process proceeds to step S704.
[0080]
  In step S703, the CPU 41a of the printer 2a changes its model flag from “Enable” to “Disable”, and the process proceeds to step S704. As a result, the printer 2a functioning as a model printer that is considered to be connected to another LAN has been released from the function as a model printer.
[0081]
  In step S704, the CPU 41a of the printer 2a replaces the contents of the IP address change confirmation table shown as an example in FIG. 9 with the current IP address.
[0082]
  In the second embodiment described above, when the printer IP address is changed and the printer is considered to be connected to another LAN, the model flag is set to “Disable” to function as a model printer. It has been released. For this reason, even if there is already a printer functioning as a model printer in the connected LAN, there are no two or more printers functioning as model printers in the connected LAN. As a result, setting information can be easily obtained when the printer performs its own setting.
[0083]
Third embodiment
  The third embodiment of the present invention will be described below with reference to the drawings. The third embodiment differs from the second embodiment in model flag correction processing.
[0084]
  The ROM 42 (42a, 42b,...) Has a program for causing the printer to execute model function cancellation processing (see FIGS. 7 and 10) for canceling the function as a model printer when it is considered that it is connected to another LAN. Is stored. Further, the NVRAM 46 (46a, 46b,...) Stores a network change confirmation table shown as an example in FIG. In this network change confirmation table, the network address (previous network address) of the IP address acquired in the previous model flag correction process (S602, FIG. 10) is registered. The RAM 43 (43a, 43b,...) Stores a network address counter table as an example in FIG. This network address counter table is used to count the network address of the transmission source / destination of the transmitted / received network packet.
[0085]
  The CPU 41 (41a, 41b,...) According to the present embodimentModel function release processing(See FIGS. 7 and 10). Here, an outline of the operation of the CPU 41 (41a, 41b,...) In the model function release processing will be described. In the model function canceling process, the CPU 41 exceeds 50% of the entire network address counter table (see FIG. 12) every 5 minutes and the previous network address registered in the network change confirmation table (see FIG. 11). And if they are different, it is detected that they are connected to another LAN (detection means). When it is detected that the CPU 41 is connected to another LAN, the CPU 41 sets the model flag to “Disable” and cancels the function as the model device (release means).
[0086]
  Hereinafter, the model function cancellation process performed in the network system 1 will be described with reference to FIG. FIG. 10 is a flowchart showing an operation flow of model flag correction processing in the main flow of FIG. However, the same main flow (see FIG. 7) as in the second embodiment is executed. Further, the description will be made with reference to the printer 2a in FIG.
[0087]
  In step S801, the CPU 41a of the printer 2a increments the value of the corresponding network address in the network address counter table shown as an example in FIG. 12 based on the transmission source and transmission destination network addresses of the transmitted and received network packets. However, in the case of a network address that is not in the network address counter table, the network address is added to the network address counter table, and the counter value is set to 1. Note that the network address count table may be updated only for either the transmitted network packet or the received network packet.
[0088]
  In step S802, the CPU 41a of the printer 2a determines based on a signal from a timer (not shown) whether, for example, 5 seconds have elapsed since the model flag correction process was started. If it is not determined that 5 seconds have elapsed (S802: NO), the process returns to step S802 and monitoring is continued until it is determined that 5 seconds have elapsed. On the other hand, if it is determined that 5 seconds have elapsed (S802: YES), the process proceeds to step S803.
[0089]
  In step S803, the CPU 41a of the printer 2a determines whether there is a network address exceeding 50% of the total (total number of network addresses) based on the contents of the network address counter table shown in FIG. judge. If it is determined that there are no network addresses exceeding 50% of the total (S803: NO), the model flag correction process is terminated. On the other hand, if it is determined that there are more than 50% of the network addresses (S803: YES), the process proceeds to step S804.
[0090]
  In step S804, the CPU 41a of the printer 2a recognizes a network address exceeding 50% of the total as a network address of the LAN to which the printer 2a is currently connected.
[0091]
  In step S805, the CPU 41a of the printer 2a determines whether or not the network address recognized in step S804 is different from the previous network address registered in the network change confirmation table illustrated in FIG. . If it is determined that both are the same (S805: NO), the process proceeds to step S808. On the other hand, if it is determined that they are different (S805: YES), the process proceeds to step S806.
[0092]
  In step S806, the CPU 41a of the printer 2a determines whether or not its model flag is “Enable”. If it is determined that the model flag is “Enable” (S806: Enable), the process proceeds to step S807. On the other hand, when it is determined that the model flag is not “Enable”, that is, “Disable” (S806: Disable), the process proceeds to step S808.
[0093]
  In step S807, the CPU 41a of the printer 2a changes its model flag from “Enable” to “Disable”, and the process proceeds to step S808. As a result, the printer functioning as a model printer that is considered to be connected to another LAN has been released from the function as a model printer.
[0094]
  In step S808, the CPU 41a of the printer 2a replaces the contents of the network change confirmation table shown in FIG. 11 with the network address recognized in step S804 for use in the next model flag correction process.
[0095]
  In the third embodiment described above, the model flag is set to “Disable” when the network address of the network printer transmitted and received by the printer is changed and the printer is considered to be connected to another LAN. The function as a printer is canceled. For this reason, even if there is already a printer functioning as a model printer in the connected LAN, there are no two or more printers functioning as model printers in the connected LAN. As a result, setting information can be easily obtained when the printer performs its own setting.
[0096]
  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and various design changes can be made as long as they are described in the claims. . For example, in the first embodiment described above, SNMP is used. However, the present invention is not limited to this, and information (model flags, information on other electronic devices on the LAN such as UPnP (Universal Plug and Play)) is used. It is only necessary to be able to exchange (such as a lock function flag).
[0097]
  In the case of UPnP, a printer that has newly attempted to function as a model printer searches for another printer using UPnP Discovery. After the retrieval, the setting contents of the model flag and the setting contents of the lock function flag of the other printer are acquired by the UPnP Description. Based on the acquired setting contents, the same processing as in the first embodiment is performed to determine whether or not to make itself a model printer. If the printer is determined to be a model printer, it performs multicasting to notify that fact (extension of SSDP (Simple Service Discovery Protocol)). An example of the data to be multicast is shown in FIG. “Notify * HTTP / 1.1” in the data indicates that the notification is HTTP 1.1. “HOST:” indicates the address and port name used for SSDP multicast. “LOCATION: http: //” indicates a URL indicating the location of the setting information (Description) of the model printer. “NT: upnp: roordevice” indicates that all UPnP devices are transmission destinations. “NTS: ssdp: modelchange” indicates that the command is a model change (model printer change). “SERVER” indicates printer model information, version information thereof, and UPnP version information.
[0098]
  Further, the configuration may be such that there is one model printer for all the printers.
[0099]
【The invention's effect】
  Claim 1, 6,7According to the above, when an electronic device is a new model device of the network, it is confirmed whether there is an electronic device that has already been set up as a model device. Model equipment no longer exists. As a result, automatic setting for the electronic device is easily performed. At this timeWhen an electronic device is set to continue to function as a model device, the electronic device is determined as a model device. For example, a system administrator or the like desires to continue using the model device as a model device. In such a case, it is possible to continue functioning as a model device. Furthermore, when the electronic device is not set to continue to function as a model device, a system administrator or the like can cause the electronic device desired by the user to function as the model device.
[0100]
  Claim2According to this, when a change occurs in an electronic device that functions as a model device, the other electronic device is notified of the change, so that the other electronic device can grasp that the change has occurred in the model device at an early stage. As a result, the other electronic device can quickly change its own setting information to the setting information of the electronic device that newly functions as the model device.
[0101]
  Claim3According to the above, since the electronic device functioning as the model device releases the function as the model device connected to a different network, it is possible to prevent a plurality of model devices from existing in the network. As a result, automatic setting for the electronic device is easily performed.
[0102]
  Claim4According to the above, it is possible to easily detect whether or not the network has been changed.
[0103]
  Claim5According to the above, it becomes possible to easily detect whether or not there has been a network change.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an example of a system configuration of a network system according to a first embodiment of the present invention.
2 is a diagram showing an example of a part of the apparatus configuration of the apparatus of FIG. 1;
FIG. 3 is a flowchart showing an operation flow of model printer determination processing in the first embodiment.
FIG. 4 is a diagram illustrating an example of an operation sequence of model printer determination processing according to the first embodiment.
FIG. 5 is a diagram illustrating another example of the operation sequence of the model printer determination process in the first embodiment.
6 is a diagram showing a modification of the operation sequence in FIG. 4. FIG.
FIG. 7 is a flowchart showing a main flow of model function release processing in the second embodiment;
FIG. 8 is a flowchart showing an operation flow of model flag correction processing in the main flow of FIG. 7;
FIG. 9 is a diagram illustrating an example of an IP address change confirmation table.
FIG. 10 is a flowchart showing an operation flow of model flag correction processing in the third embodiment;
FIG. 11 is a diagram illustrating an example of a network change confirmation table.
FIG. 12 is a diagram illustrating an example of a network address counter table.
FIG. 13 is a diagram illustrating an example of data obtained by extending SSDP.
[Explanation of symbols]
  1, 1a, 1b network system
  2a, 2b, 2c, 2d, 3, 12, 13 Printer
  4,14 Desktop personal computer
  5, 15 Notebook personal computer
  6, 16 routers
  7, 17 LAN
  31, 41, 41a, 41b CPU
  32, 42, 42a, 42b ROM
  33, 43, 43a, 43b RAM
  34 HDD
  35 Operation unit
  36 display section
  37, 47, 47a, 47b interface
  44, 44a, 44b HDD
  45, 45a, 45b Operation panel
  46, 46a, 46b NVRAM

Claims (7)

A configuration system in which a plurality of electronic devices are communicably connected to a network, and settings are made for other electronic devices based on settings for electronic devices that function as model devices,
Electronic equipment
When making the electronic device function as a model device in the network, confirmation means for confirming whether there is an electronic device already functioning as a model device among the electronic devices connected to the network;
When it is confirmed by the confirmation means that there is already an electronic device that functions as a model device, a determination is made to determine which of the electronic device and the electronic device that functions as the model device confirmed by the confirmation means is the model device are equipped with means, the,
It is possible to set whether to keep the function as a model device in the electronic device,
The determining means includes
If the electronic device confirmed by the confirmation unit is set to continue to function as a model device, the electronic device confirmed by the confirmation unit is determined as a model device,
A setting system that determines a model device based on information from a user interface when the electronic device confirmed by the confirmation unit is not set to continue to function as a model device.   2. The setting according to claim 1, wherein the electronic device further includes a notification unit configured to notify the other electronic device when the electronic device is determined as a model device by the determining unit. system. The electronic device is
  Detecting means for detecting whether the electronic device is connected to a different network;
  3. The setting system according to claim 1, further comprising: a release unit that releases a function as a model device when the detection unit detects that it is connected to a different network. 4. 4. The setting system according to claim 3 , wherein the detection unit monitors an IP address of its own electronic device and detects whether it is connected to a different network based on the monitoring result. The detection unit monitors a network address part of an IP address of at least one of packets transmitted and received by its own electronic device, and detects whether it is connected to a different network based on the monitoring result. Item 4. The setting system according to Item 3 . An electronic device capable of functioning as a model device in a setting system in which a plurality of electronic devices are communicably connected to a network and configured for settings related to other electronic devices based on settings related to the electronic devices functioning as model devices. ,
When the electronic device functions as a new model device in the network, confirmation means for confirming whether there is an electronic device that already functions as a model device among the electronic devices connected to the network;
When it is confirmed by the confirmation means that there is already an electronic device that functions as a model device, a determination is made to determine which of the electronic device and the electronic device that functions as the model device confirmed by the confirmation means is the model device are equipped with means, the,
It is possible to set whether to keep the function as a model device,
The determining means includes
If the electronic device confirmed by the confirmation unit is set to continue to function as a model device, the electronic device confirmed by the confirmation unit is determined as a model device,
An electronic device characterized in that, when the electronic device confirmed by the confirmation unit is not set so as to continue to function as a model device, the model device is determined based on information from a user interface . A program for determining a model device in a setting system in which a plurality of electronic devices are communicably connected to a network and based on a setting related to an electronic device functioning as a model device and configured for other electronic devices,
The electronic device,
When the electronic device functions as a new model device in the network, confirmation means for confirming whether there is an electronic device that already functions as a model device among the electronic devices connected to the network;
When it is confirmed by the confirmation means that there is already an electronic device that functions as a model device, a determination is made to determine which of the electronic device and the electronic device that functions as the model device confirmed by the confirmation means is the model device Function as a means,
It is possible to set whether to keep the function as a model device in the electronic device,
The determining means includes
If the electronic device confirmed by the confirmation unit is set to continue to function as a model device, the electronic device confirmed by the confirmation unit is determined as a model device,
A program for determining a model device based on information from a user interface when an electronic device confirmed by the confirmation unit is not set to continue to function as a model device.

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