JP5353225B2 - Image processing apparatus, power supply control method, power supply control program, and recording medium recording the program - Google Patents

Description

  The present invention relates to an image processing apparatus, and more particularly to a technique for performing power supply control.

  In recent years, the tendency to further promote energy saving (also called greening) has become more prominent. The reason for this is that environmental measures such as CO2 reduction and energy cost reduction have been actively pursued within the company.

  For this reason, the image processing apparatus is designed to satisfy a power consumption standard such as an energy star, for example. Further, in order to reduce power consumption, for example, a power control function as disclosed in Patent Document 1 have.

Patent Document 1 discloses an image processing apparatus that controls transition to an energy saving mode based on a change in the amount of illumination light in an installation environment.
JP 2004-170457 A

  However, in the conventional power control, the power control is not performed according to the state of the own device.

  In the image processing apparatus disclosed in Patent Document 1, even when the image processing function cannot be operated due to an error that has occurred inside the apparatus (unusable state), the power is turned off during that time. Power supply control is not performed. As a result, useless power is consumed until the original state is restored.

  The present invention has been proposed in view of the above-described problems of the prior art, and an object of the present invention is to provide an image processing apparatus, a power supply control method, and a power supply that can reduce wasteful power consumption in an unusable state. A control program and a recording medium on which the program is recorded are provided.

In order to achieve the above object, an image processing apparatus according to the present invention includes an acquisition unit that acquires information about an event including information for identifying a failure that has occurred,
If the identified fault based on the generated the event is a predetermined failure, a power supply control execution means for executing the power control,
A plurality of notification means for notifying the state of the image processing apparatus;
Status notification control means for notifying the status of the image processing apparatus to an external apparatus connected via a network by a notification means corresponding to the failure that has occurred;
It has a urgency of the fault that corresponds to the magnitude value of the event, and a holding means for holding and storing the correspondence between notifying means, and
The status notification control means refers to the holding means, selects a notification means corresponding to the event grade value acquired by the acquisition means, and notifies the status of the image processing apparatus.

In order to achieve the above object, the image processing apparatus according to the present invention includes execution determination means for determining whether to execute power control according to the failure that has occurred,
The execution determination means includes
Based on the information related to the event acquired by the acquisition means, the generated failure is identified and it is determined whether or not to execute power control.

In order to achieve the above object, in the image processing apparatus according to the present invention, the execution determination unit includes an error code indicating an error or a warning state included in the information related to the event, and a power source.
And error code for performing control, determine whether or not match, you determine whether to execute the power control.

  With such a configuration, the image processing apparatus according to the present invention determines whether or not to execute power control according to the failure specified from the event that has occurred in the image processing apparatus, and based on the determination result, the power processing Instructs execution of control (power off).

  Thus, the image processing apparatus according to the present invention can reduce wasteful power consumption in an unusable state, and can reduce the power consumption of the entire image processing apparatus.

  In order to achieve the above object, in the image processing apparatus according to the present invention, the state notification control unit further notifies the state from the plurality of notification units based on the information about the event acquired by the acquisition unit. It is characterized by having a selection determining means for selecting and determining a notification means to be used.

  In order to achieve the above object, in the image processing apparatus according to the present invention, the state notification control unit includes an event assigned with an identifier of the notification unit and an urgent level indicating the urgency level of the state notification step by step. And holding means for holding control information set in association with a grade value in a predetermined storage area, wherein the selection determining means is based on the grade value of the event included in the information related to the event. With reference to the control information held by the means, the emergency level assigned to the grade value is specified, and the notification means corresponding to the specified emergency level is selected and determined.

  In order to achieve the above object, in the image processing apparatus according to the present invention, the state notification control unit includes a use permission determination unit that determines whether the notification unit is usable, and the selection determination unit includes the use determination unit. The notification means determined to be usable by the availability determination means is selected and determined as the notification means for notifying the state.

In order to achieve the above object, an image processing apparatus according to the present invention, the holding means, the urgency is high failure notification hand stage a small amount of data for communication and held only not a correspondence Yes.

In order to achieve the above object, a power control method according to the present invention is a power control method in an image processing apparatus having a plurality of notification means for notifying the state of the image processing apparatus,
An acquisition procedure for acquiring information about an event including information for identifying the failure that has occurred,
Disorders identified on the basis of the generated the event, if it is given disorder, a power supply control execution procedure for executing power control,
A status notification control procedure for notifying the status of the image processing apparatus to an external apparatus connected via a network by a notification means corresponding to the failure that has occurred;
Have
The state notification control procedure refers to the holding means stores and holds correspondence between urgency and notification means disorders that corresponds to grade value of said event corresponding to the grade value of the acquired event by the obtaining procedure The notification means is selected to notify the state of the image processing apparatus.

  Through such a procedure, the power control method according to the present invention determines whether or not to execute power control according to the failure specified from the event that occurred in the image processing apparatus, and based on the determination result, An operation of instructing execution of control (power off) is realized.

  Accordingly, the power control method according to the present invention can provide an environment in which power control according to a failure identified from an event that has occurred in the image processing apparatus is possible.

  According to the present invention, an image processing apparatus, a power supply control method, a power supply control program, and a program that can reduce useless power consumption in an unusable state by performing power supply control according to a failure that has occurred are recorded. Recording media can be provided.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention (hereinafter referred to as “embodiments”) will be described in detail with reference to the drawings.

[First Embodiment]
<Hardware configuration>
First, the hardware configuration of the image processing apparatus 100 according to the present embodiment will be described. FIG. 1 is a diagram illustrating a hardware configuration example of an image processing apparatus 100 according to the present embodiment.

  As shown in FIG. 1, the image processing apparatus 100 includes an operation panel 11, an external storage I / F 12, a controller 13, a data communication I / F 14, an HDD (Hard Disk Drive) 110, a scanner 15, and a plotter 16. Each is connected to each other by a bus.

  The operation panel 11 includes an input device 101 and a display device 102. The input device 101 includes hardware keys and the like, and is used to input each operation signal to the image processing apparatus 100. The display device 102 is configured by a display or the like, and displays various types of information related to image processing operations such as operating conditions.

  The data communication I / F 14 includes an interface device 109, and is an interface that connects the image processing apparatus 100 to a data communication network such as a wired and / or wireless line.

  The HDD 110 stores various data such as image data handled by the image processing apparatus 100. Further, the HDD 110 manages these various data by a predetermined file system or DB (Data Base).

  The external storage I / F 12 is an interface for connecting a recording medium 104 such as a flash memory including an SD memory card (SD Memory Card) and a USB memory (Universal Serial Bus Memory) to the image processing apparatus 100. Data can be exchanged between the image processing apparatus 100 and the recording medium 104 by the external storage I / F 12. For example, the recording medium 104 is used when installing an application program or the like.

  The controller 13 includes a ROM (Read Only Memory) 105, a RAM (Random Access Memory) 106, an NV-RAM (Non Volatile RAM) 107, and a CPU (Central Processing Unit) 108.

  The ROM 105 stores various programs and data such as basic software and application software that control the entire image processing apparatus 100. The RAM 106 temporarily stores programs and data read from the ROM 105 and the HDD 110. The NV-RAM 107 stores data such as initial setting values for controlling the image forming operation. Further, the CPU 108 executes the program read out on the RAM 106. With the above configuration, the controller 13 causes the CPU 108 to execute the basic software program read from the ROM 105 onto the RAM 106 and controls the entire image processing apparatus 100.

  The scanner 15 includes an image reading device 111 and optically reads a document on a reading surface and generates image data. The plotter 16 includes a tandem printing device 112, and prints the bitmap image transferred from the controller 13 on a sheet by, for example, electrophotography. Note that the image forming method is not limited to the electrophotographic method.

  A facsimile (not shown) is realized by the plotter 16 and the data communication I / F 14. The facsimile receives fax data by the data communication I / F 14 and prints the received data by the plotter 16.

  A power supply device (not shown) is a device that supplies predetermined power to the hardware. Note that the power supply apparatus may be provided in the image processing apparatus 100 or may be configured to supply power to the image processing apparatus 100 from the outside.

  As described above, in the image processing apparatus 100 according to the present embodiment, the CPU 108 executes a predetermined program read to the RAM 106 of the controller 13 and requests for data input from each interface provided in the apparatus. Perform image processing.

  The above hardware configuration is an example in a case where the image processing apparatus 100 according to the present embodiment is a multifunction peripheral (MFP). The image processing apparatus 100 according to the present embodiment includes apparatuses such as a printer, a facsimile machine, and a scanner, in addition to the multifunction machine. However, in the following description, for the sake of convenience, a multi-function device is taken as an example.

<Power control function>
From here, the power control function of the image processing apparatus 100 according to the present embodiment will be described in detail.

  In the image processing apparatus 100 according to the present embodiment, it is determined whether to execute power control according to a failure identified from an event that has occurred in the image processing apparatus 100, and based on the determination result, the power control is executed ( (Power off). It has such a power supply control function.

  Depending on the state of the image processing apparatus 100, the image processing function may not be usable due to a failure that has occurred. In such a case, the image processing apparatus 100 does not need power until it returns to a usable state after handling a failure (until the original state is restored).

  Therefore, in the image processing apparatus 100 according to the present embodiment, power control is performed according to a failure that has occurred in the image processing apparatus 100 to reduce power consumption until the original state is restored.

  As a result, the power consumption of the entire image processing apparatus 100 can be reduced.

  Now, the configuration and operation of the power control function will be described.

<Functional configuration>
FIG. 2 is a diagram illustrating a configuration example of functions of the image processing apparatus according to the present embodiment. As illustrated in FIG. 2, the image processing apparatus 100 includes a power control unit 20 including an event information acquisition unit 21, a power control execution determination unit 22, and a power control execution unit 23.

  As described above, the power control function according to the present embodiment is realized by the above-described functional units operating in conjunction with each other.

(Get event information)
The event information acquisition unit 21 is a functional unit that acquires information (hereinafter referred to as “event information”) 41 regarding various events that occur in the image processing apparatus 100. The event information acquisition unit 21 acquires event information 41 by performing polling processing on various hardware included in the image processing apparatus 100 using SNMP (Simple Network Management Protocol). Specifically, it is checked whether an event such as an error or a warning state has occurred by acquiring prtAlertTable information possessed by the hardware using an SNMP command.

  FIG. 3 is a diagram illustrating a software configuration example according to the present embodiment. In the image processing apparatus 100, the power supply control unit 20 can be mounted with a software configuration as shown in FIG.

  A program (software component) for realizing the power control unit 20 is a Java (registered trademark) application program.

  The above program is an SDKJ (Software Development Kit for Java) 62, which is a kit for software developers composed of libraries, various samples, tools, documents, and the like, which are necessary when developing a Java (registered trademark) application. Implemented above. The SDKJ 62 is mounted on a Java (registered trademark) VM (Java Virtual Machine) 61 that is software that converts a Java (registered trademark) bytecode into a native code (executable code) of the platform PF and executes it. Yes. A Java (registered trademark) VM (Java Virtual Machine) 61 is mounted on a platform PF mounted on the image processing apparatus 100.

  The platform PF includes a control service (CS), a system resource manager (SRM), an operating system (OS), and the like. The control service interprets a processing request from an application and generates a hardware resource acquisition request (for example, “allocate memory”). The system resource manager manages one or more hardware resources, and arbitrates acquisition requests from the control service.

  The software configuration is not limited to the above configuration, and may be a configuration that does not include the SDKJ62. However, in the following description, for the sake of convenience, a configuration in which a program for realizing the power supply control unit 20 is mounted on the SDKJ 62 will be described as an example.

  In the image processing apparatus 100, the program that implements the power supply control unit 20 can perform data processing using the various hardware 71 included in the image processing apparatus 100 and SNMP with the above-described software configuration. That is, the power supply control unit 20 has an SNMP manager function, while the hardware 71 has an SNMP agent function.

  The event information acquisition unit 21 acquires various event information 41 including error or warning information generated in the hardware 71 included in the image processing apparatus 100 by the SNMP manager / agent function.

  The agent holds information that is disclosed to inform the state of the image processing apparatus 100 to the outside. This information is called MIB (Management Information Base). The MIB has a tree-structured data structure, and all nodes are uniquely numbered. This node identifier is called an object identifier (OBJECT IDENTIFIER).

  This MIB structure is called a management information structure (SMI) and is defined in RFC1155 Structure and Identification of Management Information for TCP / IP-based Internets.

  Each error or warning state described above is assigned a unique code in the hardware 71. Furthermore, when an error or warning state occurs in the hardware 71, an object having an MIB included in the hardware 71 has a value of a code assigned to it or a value indicating its importance.

  For example, the prtAlertTable information defined in the Printer MIB (RCF 1759) is defined so that each entry corresponds to one error or warning state and has an instance of an object such as “prtAlertSeverityLevel” and “prtAlertLocation”, respectively. ing. If multiple errors or warnings have occurred, the prtAlertTable information has multiple entries.

  The agent of the plotter 16 included in the image processing apparatus 100 supports prtAlertTable information, and a code corresponding to each error or warning state is set in the prtAlertLocation. In addition, prtAlertSeverityLevel is a value representing the grade for each printer alert (event). In the Printer MIB, an error “critical (3)”, warning “warning (4)”, and other “other (1)” are set. ing.

  For example, when an error or warning state actually occurs in the plotter 16, the agent adds an entry to the prtAlertTable information, and each instance such as “prtAlertSeverityLevel” and “prtAlertLocation” in the added entry has a value corresponding to the state. Make it.

  Therefore, the event information acquisition unit 21 acquires a value (setting value) defined in the prtAlertTable information as various event information 41 including an error or warning state.

  Details of the method for acquiring the prtAlertTable information by the event information acquisition unit 21 are as follows.

  SNMP has the following commands.

  “GetRequest” and “GetNextRequest” are commands that the manager sends to the agent in order to acquire the value of the MIB object of the agent. The agent that receives this command notifies the value of the MIB object by responding to the manager.

  “SetRequest” is a command that the manager sends to the agent in order to set the value of the MIB object of the agent. The agent that receives this command responds to the manager in order to notify the manager of the setting result.

  “Trap” is a command sent by the agent to the manager so that the agent notifies the manager of the state change of the image processing apparatus 100. In particular, in the case of an error that cannot be restored, the agent notifies the manager by "Trap".

  Thus, the event information acquisition unit 21 uses the Get command such as “GetRequest” or “GetNextRequest” to inquire the setting value of the prtAlertTable information from the agent and receives a response. Thereby, the event information acquisition unit 21 can acquire prtAlertTable information as various event information 41.

  The acquisition of the event information 41 is a method of acquiring by receiving a notification from the agent by “Trap” in addition to information acquisition using the Get command (for example, “acquisition by polling processing”). Also good.

(Power control execution judgment)
The power control execution determination unit 22 is a functional unit that determines whether or not to turn off the power of the image processing apparatus 100 according to the failure identified from the event that has occurred. The power supply control execution determination unit 22 first identifies a failure based on the acquired event information 41. As a result, when the failure is identified as a failure that cannot be recovered (for example, “an error that is difficult to restore to the original state unless it is a service person”), it is determined that the image processing apparatus 100 is powered off. .

  As described above, a code corresponding to an error or warning state is set in the prtAlertLocation value of the prtAlertTable information acquired by the event information acquisition unit 21. Therefore, the power supply control execution determination unit 22 determines whether or not an error code (determination reference value) that is set in advance as an unrecoverable failure matches the acquired code (setting value). . Based on the determination result, the failure is specified.

  For example, in the present embodiment, codes corresponding to errors such as “Empty: XXX Toner”, “Full Waste Toner”, and “Call Service Center” are described above. Judgment standard values that are regarded as unrecoverable failures.

  On the other hand, the power supply control execution determination unit 22 does not turn off the power of the image processing apparatus 100 when the specified failure is a failure other than unrecoverable (a code different from the determination reference value). Judge that it is okay.

  When it is determined that the power of the image processing apparatus 100 is turned off based on the determination result, the power control execution determination unit 22 issues an execution request to a power control execution 23 described later.

(Power control)
The power control execution unit 23 is a functional unit that turns off the power of the image processing apparatus 100 in response to an execution request. When the power control execution unit 23 receives a power control execution request (power off request) from the power control execution determination unit 22, the power control execution unit 23 supplies power to a power supply device (not shown) included in the image processing apparatus 100 according to the request. Instruct to turn off.

  As described above, the program that implements the power control unit 20 can instruct the agent to set a new MIB object value by using an SNMP Set command such as “SetRequest”.

  Therefore, the power control execution unit 23 sets a control value (new MIB object value) for turning off the power to the power supply device (not shown) included in the image processing apparatus 100 by the setting method described above. Instruct execution.

  As described above, in the image processing apparatus 100, the power control execution determination unit 22 determines whether or not to execute power control according to the failure specified from the event, and the power control execution unit 23 determines whether or not to execute the power control execution determination unit. Based on the result of the determination by 22, the execution of power control (power off) is instructed. Thereby, power consumption until the original state can be reduced.

<Functional operation>
From here, the operation of each functional unit described above will be described. In the power control function, a power control program (software component) installed (installed) in the image processing apparatus 100 is read from the storage location (for example, “ROM 105”) by the CPU 108 to the RAM 106, and the following processing is executed. This is realized.

  FIG. 4 is a flowchart illustrating an example of a processing procedure for controlling the power supply according to the present embodiment.

  As illustrated in FIG. 4, the image processing apparatus 100 acquires event information 41 including an error or a warning state that has occurred in the image processing apparatus 100 by using the event information acquisition unit 21 (step S <b> 101). Note that the event information acquisition unit 21 operates as an event handler and is in a state where the event information 41 can be received.

  When the event information acquisition unit 21 acquires the event information 41 (step S101: YES), the event information acquisition unit 21 passes the acquired event information 41 to the power control execution determination unit 22.

  In the image processing apparatus 100, the power control execution determination unit 22 identifies the failure that has occurred based on the event information 41 and determines whether to turn off the power (step S <b> 102). At this time, the power supply control execution determination unit 22 determines whether or not the determination reference value regarded as an unrecoverable failure matches the value of the prtAlertLocation in the prtAlertTable information acquired as the event information 41, and determines the failure that has occurred. Identify.

  If it is determined in step S102 that the power supply is turned off (step S102: YES), the power supply control execution determination unit 22 issues an execution request to the power supply control execution unit 23 to turn off the power supply.

  When the power control execution unit 23 receives an instruction to turn off the power, the image processing apparatus 100 first refers to a queue that temporarily holds an unprocessed job execution request, and there is a job that has not been processed. Whether or not (step S103).

  When it is confirmed in step 103 that there is a job that has not been processed (unprocessed job) (step S103: YES), the power supply control execution unit 23 requests execution of the job due to the failure that has occurred. Whether or not can be processed is determined (step S104).

  If it is determined in step S104 that processing is not possible (step S104: YES), the power supply control execution unit 23 requests job cancellation (step S105).

  On the other hand, when it is determined in step S104 that processing is possible (step S104: NO), the power supply control execution unit 23 waits until job processing is completed.

  In this way, the power control execution unit 23 waits for execution of power control until the processing of all jobs held in the queue is completed or canceled.

  When it is confirmed in step S103 that the processing has been completed or canceled for all jobs (step S103: NO), the power control execution unit 23 includes a power supply device (not shown) included in the image processing apparatus 100. Is set to a control value for turning off the power, and execution of power control is instructed (step S106).

<Summary>
As described above, the image processing apparatus 100 according to the present embodiment performs power supply control according to a failure that has occurred.

  Thereby, the image processing apparatus 100 can reduce wasteful power consumption in an unusable state, and can reduce the power consumption of the entire image processing apparatus 100.

[Second Embodiment]
In the first embodiment, the power is turned off when the image processing apparatus becomes unusable. When performing such power control, notify the device manager and service personnel of the device status including the status information (hereinafter referred to as “power status”) of the power supply (not shown), and respond quickly to failures. It is necessary to prompt.

  Therefore, in the present embodiment, an image processing apparatus having a function of performing power control according to a failure and notifying a device state in conjunction with power control will be described. In the present embodiment, the same reference numerals are assigned to the same items as those in the first embodiment, and the description thereof is omitted for convenience.

<Status notification function>
The status notification function of the image processing apparatus 100 according to the present embodiment will be described in detail.

  In the image processing apparatus 100 according to the present embodiment, a notification unit used for notification is selected and determined according to an event that has occurred in the image processing apparatus 100 from among a plurality of notification units. Also, the device state including the power supply state is notified by the notification means selected and determined. It has such a status notification function.

  When turning off the power, it is necessary to notify the device state including the power state before turning off the power.

  In view of this, the image processing apparatus 100 according to the present embodiment receives a message to turn off the power from the power control unit 20, and further responds to the power control unit 20 that the notification is completed. That is, the power supply control unit 20 is controlled not to turn off the power until a notification completion response is received from the state notification function.

  Further, the status notification of the image processing apparatus 100 includes error information with a high degree of urgency generated in the image processing apparatus 100 from history information such as a job report and an access report with a low degree of urgency for maintenance and operation.

  Therefore, the image processing apparatus 100 according to the present embodiment performs control so that the notification unit is changed according to the urgency of the event that has occurred.

  As a result, it is possible to assist device managers, service personnel, and the like so that maintenance and operation after power control can be performed quickly.

  Now, the configuration and operation of the state notification function will be described.

<Functional configuration>
FIG. 5 is a diagram illustrating a configuration example of the state notification function according to the present embodiment. As shown in FIG. 5, the image processing apparatus 100 has two functional units, a power control unit 20 that realizes a power control function and a notification control unit 30 that realizes a state notification function.

  The notification control unit 30 includes a notification means selection unit 31, a notification unit 32, and a control information holding unit 33.

  As described above, the state notification function according to the present embodiment is realized by the above-described functional units performing a linked operation.

(Selection of notification means)
The notification unit selection unit 31 is a functional unit that selects and determines one or more notification units according to the event that has occurred. At this time, the notification means selection unit 31 refers to the control information 51 held by the control information holding unit 33 as shown in FIG. 6 and determines the status notification according to the urgency level of the event occurring in the image processing apparatus 100. The notification means to be used at the time is selected and determined. The control information holding unit 33 is a predetermined storage area of a storage device (for example, “HDD”) in which the control information 51 is held.

  FIG. 6 is a diagram illustrating a data example of the state notification control information 51 according to the present embodiment. As shown in FIG. 6, the control information 51 includes items of “usage notification means”, “usability setting”, and “notification determination criterion setting”, which are associated with each other.

  “Usage notification unit” is an item for setting identification information of a notification unit used when a state is notified to an external apparatus (for example, “user terminal”) via the data communication I / F 14 included in the image processing apparatus 100. It is. “Usability setting” is an item for setting the availability of the notification means. “Notification determination criterion setting” is an item for setting a criterion for determining the urgency of state notification for an event that has occurred.

  In the item of “notification determination criterion setting”, an event class (Severity Level) and a level indicating the urgency of state notification (hereinafter referred to as “emergency level”) can be set in association with each other. In the present embodiment, since there are four event classes, a maximum of four emergency levels can be set in association with each other.

  For example, in the control information 51 shown in FIG. 6, the lowest emergency level “Report” is assigned to the event related to the class [1], and the higher emergency level is reached in the order of class [4] and class [3]. Assigned in stages. In addition, the highest emergency level “Unrecoverable” is assigned to the event class received by “Trap” (see the arrows in the figure for the level of the emergency level). .

  Each item including the “notification determination criterion setting” is set / changed by a user including an administrator using the operation panel 11, a predetermined tool (such as a browser) or a predetermined command provided in the image processing apparatus 100. It can be performed. Note that the “usability setting” item can be dynamically changed / updated according to the operation state of the data communication I / F 14 included in the image processing apparatus 100 and the communication state of the data transmission path.

  In this embodiment, the emergency level corresponding to the occurrence event and the notification means suitable for the emergency level are set in advance in the control information 51 by the setting / changing method.

  FIG. 7 is a diagram illustrating an example of the operating environment of the image processing apparatus 100 according to the present embodiment.

  As shown in FIG. 7, there are two main examples of the operating environment of the image processing apparatus 100 according to the present embodiment. First, as shown in FIG. 7A, one or a plurality of client PCs (Personal Computers) 200 (hereinafter simply referred to as “PCs”) are connected to each other through a predetermined data transmission line such as a network. It is an operating environment.

  In such an operating environment, for example, the image processing apparatus 100 is in a state of broadcasting (message transmission to an unspecified number of people) or multicast (message transmission to a plurality of designated notification destinations) to a plurality of connected PCs 200n. Make a notification.

  Next, as shown in FIG. 7B, there is an operating environment in which the state monitoring apparatus 300 that monitors the state of the device and the predetermined data transmission path such as a network are mutually connected.

  In such an operating environment, for example, the image processing apparatus 100 sends a status notification to the connected status monitoring apparatus 300 by unicast (message transmission to a designated notification destination). Accordingly, if the PC 200 requests the state monitoring device 300 to acquire state information, the state of the image processing device 100 can be known.

  In the above operating environment, examples of the PC 200 and the status monitoring device 300 are given as status information notification or status information acquisition destination devices, but this is not restrictive. For example, it may be any information processing apparatus including various servers and mobile terminals (for example, “PDA (Personal Digital Assistant)”, “mobile phone”, etc.).

  In the operating environment shown in (A), since there are many notification destinations, the user can quickly know the state of the image processing apparatus 100, but the total amount of data at the time of notification increases and a communication load is applied. In the operating environment shown in (B), since the notification destination is limited, the communication load can be reduced, but the user cannot quickly know the device state.

  For this reason, it is desirable to give priority to the promptness of status notification for notification contents with a high degree of urgency, and to perform status notification by broadcast or multicast using a transmission message with a limited amount of data. On the other hand, for the notification content with low urgency, it is desirable to give priority to the data amount at the time of notification, limit the notification destination by unicast, and perform detailed status notification.

  Therefore, in setting the control information 51, the notification means is set in consideration of the above points.

  Thereby, the notification means selection unit 31 specifies the emergency level from the control information 51 based on the event information 41 acquired by the event information acquisition unit 21, and selects and determines the optimal notification means corresponding to the specified emergency level. can do. Specifically, based on the value of prtAlertSeverityLevel of the prtAlertTable information acquired as the event information 41, the emergency level defined in “notification determination criterion setting” of the control information 51 is specified. Subsequently, the notification means associated with the specified emergency level is selected and determined as the notification means used for the status notification.

  For example, when the value of prtAlertSeverityLevel is [4], referring to the control information 51 shown in FIG. Identified. Subsequently, referring to each item of “usability setting” and “usage notification unit” associated with the specified “notification determination criterion setting”, an available email (e-mail) is selected and determined as the notification unit. The

  In addition, when the value of prtAlertSeverityLevel is [3], referring to the control information 51 shown in FIG. Identified. Subsequently, with reference to each item of “usability setting” and “use notification means” associated with the specified “notification determination reference setting”, two notification means of SMS (Short Message Service) and Netsend The usable SMS is selected and determined as the notification means. In this way, the notification means in which “Disable” is set in the “Usability setting” item is excluded from the selection targets.

  In addition, the notification means selection unit 31 determines that the next highest level of urgency (next level) can be selected when all the notification means corresponding to the emergency level of the event that has occurred cannot be selected and determined at the time of the selection determination. The notification means that can be used corresponding to the emergency level) is selected and determined. When all the notification means corresponding to the highest emergency level cannot be used, the usable notification means associated with the next lowest emergency level is selected and determined.

  In addition, the notification means selection unit 31 sets a maximum if the plurality of notification means are set in association with the “notification determination reference setting” in the control information 51 and each notification means can be used. The set number of notification means is selected and determined as the notification means used for status notification. That is, depending on the setting of the control information 51, a plurality of notification means are selected and determined.

  As described above, in the image processing apparatus 100, the notification unit selection unit 31 refers to the control information 51 set in consideration of the urgency of the notification content and the communication load reduction at the time of notification, and from among a plurality of notification units The usable notification means suitable for the emergency level can be selected and determined.

  The control information 51 may dynamically change the setting contents of the “use notification unit” by the following method.

(Dynamic change of settings related to notification means in control information)
The image processing apparatus 100 can acquire traffic information related to data communication such as a data communication I / F 14 or a network control device included in the image processing apparatus 100 using an SNMP command.

  Therefore, the image processing apparatus 100 acquires traffic information, determines the current communication load based on the acquired information, and changes the setting content of the control information 51.

  For example, when it is determined that a load is imposed on communication, the item “use notification means” set in the control information 51 is changed to a notification means with a small amount of data during communication. Specifically, it is changed from Email to SMS.

  As described above, the image processing apparatus 100 can also select and determine an appropriate notification unit according to the current communication status.

(Status notification)
The notification unit 32 is a functional unit that notifies an external device (for example, the PC 200 or the state monitoring device 300) of the state of the image processing apparatus 100. That is, it corresponds to a notification means to be selected by the notification means selection unit 31.

  In this embodiment, it has the some notification part 32n. Specifically, as shown in FIG. 5, it is used for a notification unit A 32 a that notifies a status by Email (email), a notification unit B 32 b that notifies a status by SMS (short message service), and a Web Service (web service). And a notification unit C32c that notifies the state.

  Since Email and WebService can handle a larger amount of data at the time of notification than SMS, it is a notification means suitable for use when the notification destination is limited by unicast as described above (when the notification destination is specified). is there. On the other hand, SMS is a notification means suitable for use when notifying a plurality of notification destinations (including an unspecified number of notification destinations) by broadcast or multicast because the amount of data at the time of notification is limited. . In other words, although the size of the display screen is limited, it is suitable for message transmission to mobile terminals with high portability (for example, “PDA”, “mobile phone”, etc.).

  As another notification means, in the case of notification contents with a low degree of urgency, if the image forming function is usable, report printing by a printer, a facsimile or the like can be cited as an example. In the case of notification content with a high degree of urgency, message transmission by IM (Instant Message) is an example.

  When the notification unit 32 receives the notification request when the selection is determined from the notification unit selection unit 31, the notification unit 32 notifies the notification information M as illustrated in FIG.

  FIG. 8 is a diagram illustrating an example of the notification information M according to the present embodiment. As illustrated in FIG. 8, the notification unit 32 generates transmission data including identification information of a device, failure information generated in the device, and information regarding a power supply state, and transmits the data based on predetermined notification destination information. The notification destination information is, for example, an IP address or a mail address.

  In addition, when the notification unit 32 receives the execution determination result from the power control unit 20 from the notification unit selection unit 31 as a power state notification instruction, the notification unit 32 generates transmission data including the power state based on the determination result.

  As a result, the device manager or the service person who has received the notification information M can check the device state including the power supply state, and can promptly respond to the usable state.

  When the notification unit 32 notifies the notification information M, the notification unit 32 responds to the notification means selection unit 31 that is a request source.

<Functional operation>
From here, the operation of each functional unit described above will be described. In the status notification function, a status notification program (software component) installed (installed) in the image processing apparatus 100 is read from the storage location (for example, “ROM 105”) by the CPU 108 to the RAM 106, and the following processing is executed. This is realized.

(Status notification)
FIG. 9 is a flowchart illustrating an example of a processing procedure for controlling the status notification according to the present embodiment.

  As shown in FIG. 9, the image processing apparatus 100 first receives event information 41 acquired from the event information acquisition unit 21 by the notification means selection unit 31 (step S201: YES). Subsequently, the notification means selection unit 31 refers to the control information 51 held by the control information holding unit 35 based on the event grade included in the received event information 41 (step S202). Specifically, based on the value of prtAlertSeverityLevel of the prtAlertTable information acquired as the event information 41, the item “notification determination criterion setting” of the control information 51 is referred to.

  The notification means selection unit 31 identifies the emergency level assigned to the event class from the “notification determination standard setting” item set in the control information 51, and the “use notification means” corresponding to the identified emergency level. The notification means (notification unit 32) set in the item is selected and determined (step S203). Specifically, the item of “notification determination criterion setting” in which the value of prtAlertSeverityLevel is set is identified, and based on the control value of “use notification means” associated with the identified item of “notification determination criterion setting”, Appropriate notification means is selected and determined.

  Subsequently, the notification means selection unit 31 determines whether or not the notification means selected and determined based on the control value of “usability setting” associated with the specified “notification determination criterion setting” is unusable. Judgment is made (step S204).

  If it is determined in step S204 that the notification means selected and determined cannot be used (step S204: YES), the notification means selection unit 31 sets the emergency level relating to the notification of the event set in advance ( The notification means corresponding to the next emergency level (next stage) is selected and determined according to the urgency level (step S205).

  On the other hand, if it is determined in step S204 that it can be used (step S204: NO), the notification unit selection unit 31 receives the power received from the power control unit 20 in the notification unit 32 corresponding to the notification unit selected and determined. The control execution judgment result is passed, and notification of the device status including the power status is instructed (step S206).

  Subsequently, the communication means selection unit 31 determines whether or not to perform control to turn off the power based on the execution determination result of the power control received from the power control unit 20 (step S207).

  In step S207, when it is determined that the control to turn off the power is to be performed (step S207: YES), the communication means selection unit 31 sends the response to the power control unit 20 from the response result from the power control notification unit 32. The fact that the status notification has been completed is notified (step S208).

(Power control)
FIG. 10 is a flowchart illustrating an example of a processing procedure for controlling the power supply according to the present embodiment.

  As shown in FIG. 10, the power control process according to the present embodiment is partly different from the power control process according to the first embodiment described with reference to FIG. Specifically, it is each processing procedure of steps S303, S307, and S309 shown in FIG.

  Only different processing procedures will be described below.

  In the image processing apparatus 100, the power control execution determination unit 22 identifies the failure that has occurred based on the event information 41 and determines whether to turn off the power (step S <b> 302).

  If it is determined in step S302 that the power is to be turned off (step S302: YES), the power control execution determination unit 22 makes an execution request to the power control execution unit 23 to turn off the power. Further, the power control execution determination unit 22 passes the execution determination result (power is turned off) to the notification control unit 30 and instructs notification of the device state including the power state (step S303).

  On the other hand, if it is determined in step S302 that the power supply is not turned off (step S302: NO), the power supply control execution determination unit 22 passes the power control execution determination result (power supply is not turned off) to the notification control unit 30. The notification of the device status including the power status is instructed (step S309).

  Further, when it is confirmed in step S304 that the processing has been completed or canceled in step S304 (step S304: NO), the power supply control execution unit 23 notifies the notification from the notification control unit 30. It is determined whether or not a response notification for completion has been received (step S307) and waits until a response notification is received (step S307: NO).

  In step S307, when a response notification is accepted (step S307: YES), the power supply control execution unit 23 sets a control value for turning off the power supply to a power supply device (not shown) included in the image processing apparatus 100, and the power supply The execution of control is instructed (step S308).

<Summary>
As described above, the image processing apparatus 100 according to the present embodiment has the same effects as those of the first embodiment. Furthermore, efficient maintenance / operation after power control can be supported.

  The above-described embodiments have been described so far, but the “state notification function” or “power control function” of the image processing apparatus 100 according to each embodiment is the processing procedure described with reference to the drawings. Is encoded with a programming language suitable for the operating environment (platform), and the program is executed by the CPU. Therefore, the program can be stored in the computer-readable recording medium 104.

  The above program is stored in a recording medium 104 such as a floppy (registered trademark) disk, a CD (Compact Disk), a DVD (Digital Versatile Disk), an SD memory card, or a USB memory, thereby reading the recording medium 104. The image processing apparatus 100 can be installed via a possible drive device (not shown) or the external storage I / F 12. Further, since the image processing apparatus 100 includes the data communication I / F 14, the image processing apparatus 100 can be installed via a telecommunication line.

  In the second embodiment, the configuration (the configuration including the control information holding unit 33) that holds the control information 51 in the storage device (for example, “HDD 110”) included in the image processing apparatus 100 has been described. This is not the case. For example, the control information 51 held by an SD memory card, USB memory, or the like can be read via the external storage I / F 12 and used when selecting and determining a notification unit. Furthermore, the control information 51 held by the external device connected to the image processing apparatus 100 via a predetermined data transmission path is used for selecting and determining the notification means via the data communication I / F 14 included in the image processing apparatus 100. You can also.

  Moreover, although the structure which hold | maintains the control information 51 as an external file was demonstrated, it is not this limitation. For example, a configuration of a module (software component) that realizes the function of the notification unit selection unit 31 may be used. In this case, each control setting is switched by switching the modules.

  Finally, the present invention is not limited to the requirements shown here, such as combinations of other elements with the shapes and configurations described in the above embodiments. With respect to these points, the present invention can be changed within a range that does not detract from the gist of the present invention, and can be appropriately determined according to the application form.

It is a figure which shows the hardware structural example of the image processing apparatus which concerns on the 1st Embodiment of this invention. It is a figure which shows the structural example of the function which the image processing apparatus which concerns on the 1st Embodiment of this invention has. It is a figure which shows the software structural example which concerns on the 1st Embodiment of this invention. It is a flowchart which shows the example of a process sequence which controls the power supply which concerns on the 1st Embodiment of this invention. It is a figure which shows the structural example of the function which the image processing apparatus which concerns on the 2nd Embodiment of this invention has. It is a figure which shows the example of data of the control information of the status notification which concerns on the 2nd Embodiment of this invention. It is a figure which shows the example of an operating environment of the image processing apparatus which concerns on the 2nd Embodiment of this invention. It is a figure which shows an example of the notification information which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the example of a process sequence which controls the status notification which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows the example of a process sequence which controls the power supply which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 20 Power supply control part 21 Event information acquisition part 22 Power supply control execution judgment part 23 Power supply control execution part 30 Notification control part 31 Notification means selection part 32 Notification part (a: Email, b: SMS, c: WebService)
33 Control information holding unit 41 Event information 51 Control information 61 Software (Java VM)
62 Software (SDKJ)
71 Hardware 100 Image Processing Device 11 Operation Panel 101 Input Device 102 Display Device 12 External Storage I / F
104 Recording medium 13 Controller 105 ROM (nonvolatile semiconductor memory)
106 RAM (volatile semiconductor memory)
107 NV-RAM (nonvolatile semiconductor memory)
108 CPU (Central Processing Unit)
14 Data communication I / F
109 Interface device 110 HDD (nonvolatile storage device)
15 Scanner 111 Image reading device (scanner device)
16 Plotter 112 Printing device (Plotter device)
200 Client PC (information processing device)
300 Status monitoring device (information processing device)
PF platform

Claims (10)

An acquisition means for acquiring information related to an event including information for identifying a failure that has occurred;
If the identified fault based on the generated the event is a predetermined failure, a power supply control execution means for executing the power control,
A plurality of notification means for notifying the state of the image processing apparatus;
Status notification control means for notifying the status of the image processing apparatus to an external apparatus connected via a network by a notification means corresponding to the failure that has occurred;
It has a urgency of the fault that corresponds to the magnitude value of the event, and a holding means for holding and storing the correspondence between notifying means, and
The status notification control means refers to the holding means, selects a notification means corresponding to the event grade value acquired by the acquisition means, and notifies the status of the image processing apparatus. Processing equipment. In response to a failure that the generated has an execution determining means for determining whether or not to perform power control,
The execution determination means includes
Based on the information about the event acquired by the acquisition means, identify the failure that occurred, determine whether to execute power control ,
The image processing apparatus according to claim 1, wherein the power control execution unit turns off the power supply unit based on a determination result by the execution determination unit . The execution determination means includes
It is determined whether or not to execute power control by determining whether or not an error code representing an error or warning state included in the information related to the event matches an error code for performing power control. The image processing apparatus according to claim 2. The state notification control means includes
4. The information processing apparatus according to claim 1, further comprising a selection determination unit that selects and determines a notification unit to be used when notifying the state from the plurality of notification units based on information about the event acquired by the acquisition unit. The image processing apparatus according to any one of the above. The selection determining means includes
Based on an event grade value included in the information about the event, the holding means is referred to, an emergency level assigned to the grade value is specified, and a notification means corresponding to the specified emergency level is selected and determined. The image processing apparatus according to claim 4. The state notification control means includes
Having an availability determination means for determining availability of the notification means;
The selection determining means includes
6. The image processing apparatus according to claim 4, wherein the notification unit that is determined to be usable by the availability determination unit is selected and determined as a notification unit that notifies the state. The holding means is
The image processing apparatus according to any one of claims 1 to 6, wherein a failure having a high degree of urgency is associated with a notification unit that has a small amount of data during communication. After receiving the notification completion response to notification by the pre-Symbol notification means, said power supply control means, the image processing apparatus according to any one of claims 1 and performs power control 7. A power control method for an image processing apparatus having a plurality of notification means for notifying the state of the image processing apparatus,
An acquisition procedure for acquiring information about an event including information for identifying the failure that has occurred,
Disorders identified on the basis of the generated the event, if it is given disorder, a power supply control execution procedure for executing power control,
A status notification control procedure for notifying the status of the image processing apparatus to an external apparatus connected via a network by a notification means corresponding to the failure that has occurred,
The state notification control procedure refers to the holding means stores and holds correspondence between urgency and notification means disorders that corresponds to grade value of said event corresponding to the grade value of the acquired event by the obtaining procedure A power supply control method characterized by selecting the notified means and notifying the state of the image processing apparatus. A power control program for an image processing apparatus,
Computer
An acquisition means for acquiring information related to an event including information for identifying a failure that has occurred;
If the identified fault based on the generated the event is a predetermined failure, a power supply control execution means for executing the power control,
A plurality of notification means for notifying the state of the image processing apparatus;
Status notification control means for notifying the status of the image processing apparatus to an external apparatus connected via a network by a notification means corresponding to the failure that has occurred;
It functions as a holding means for storing and holding the correspondence between the urgency level of the failure corresponding to the grade value of the event and the notification means,
The status notification control means refers to the holding means, selects a notification means corresponding to the event grade value acquired by the acquisition means, and notifies the status of the image processing apparatus. Control program.

Images