JP2013029737A - Image forming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image forming device that shifts from normal state to energy-saving state in response to an instruction from a distant user.SOLUTION: An MFP 20 having at least two states, normal state and energy-saving state that consumes less energy than the normal state, includes: an energy-saving state transition interface 21g for network communication part configured to receive an energy-saving state transition instruction to shift the MFP 20 from the normal state to the energy-saving state, from a PC outside the MFP 20; and a power source management part 21a for managing a power source of the MFP 20. The power source management part 21a shifts the MFP 20 from the normal state to the energy-saving state in response to the energy-saving state transition instruction received by the interface 21g.

Description

  The present invention relates to an image forming apparatus capable of shifting to an energy saving state that consumes less energy than a normal state.

  Conventionally, as an image forming apparatus that can shift to an energy saving state that consumes less energy than a normal state, a main power source that supplies power to each component unit of the image forming apparatus and a main power source that turns on the main power source are mainly used. And a main power supply that is used when a preset time has passed in an unused state after the image forming operation of the image forming apparatus is completed, or the main power supply When the switch is turned off, it is known that the power supply to each component unit of the image forming apparatus is stopped to shift to an energy saving state in which energy consumption is less than in a normal state (for example, Patent Document 1). reference.).

JP 2001-290397 A

  However, when the conventional image forming apparatus shifts from the normal state to the energy saving state according to the user's instruction, the main switch needs to be turned off by the user. There is a problem that it is not possible to shift to an energy saving state.

  SUMMARY An advantage of some aspects of the invention is that it provides an image forming apparatus capable of shifting from a normal state to an energy saving state in accordance with an instruction from a remote user.

  The image forming apparatus of the present invention is an image forming apparatus having at least two states, a normal state and an energy saving state in which energy consumption is less than that in the normal state, wherein the image forming apparatus is moved from the normal state. A command receiving unit that receives an energy saving state transition command that is a command to shift to the energy saving state from an external device of the image forming apparatus; and a power management unit that manages a power source of the image forming apparatus. The management unit shifts the image forming apparatus from the normal state to the energy-saving state in accordance with the energy-saving state transition command received by the command receiving unit.

  With this configuration, the image forming apparatus of the present invention shifts from the normal state to the energy saving state in accordance with the energy saving state transition command received from the external device. It is possible to shift to an energy saving state.

  Further, the energy saving state of the image forming apparatus of the present invention may be a state in which the image forming apparatus cannot be returned to the normal state by a command from the external device.

  With this configuration, the image forming apparatus of the present invention has an energy saving state that consumes less energy compared to a case where the energy saving state is a state in which the image forming apparatus can be returned to a normal state by a command from an external device. Can be migrated to.

  The image forming apparatus program of the present invention is an image forming apparatus program executed by an image forming apparatus having at least two states: a normal state and an energy saving state in which energy consumption is less than that in the normal state. A command receiving step for receiving an energy saving state transition command, which is a command for shifting the image forming apparatus from the normal state to the energy saving state, from a device external to the image forming device, and managing a power source of the image forming device The power management step is executed by the image forming apparatus, and the power management step is a step of shifting the image forming apparatus from the normal state to the energy saving state in accordance with the energy saving state transition command received by the command receiving step. It is characterized by being.

  With this configuration, the image forming apparatus that executes the image forming apparatus program of the present invention shifts from the normal state to the energy saving state in accordance with the energy saving state shift command received from the external apparatus. It is possible to shift from a normal state to an energy saving state according to a user instruction.

  The image forming apparatus of the present invention can shift from a normal state to an energy saving state in accordance with an instruction from a remote user.

1 is a block diagram of a network system according to an embodiment of the present invention. FIG. 2 is a block diagram of the MFP shown in FIG. 1. It is a figure explaining the function of the control part shown in FIG. It is a block diagram of PC shown in FIG. It is a hierarchy figure of an example of the software of the network system shown in FIG. FIG. 3 is a sequence diagram illustrating a transition to an energy saving state in accordance with an instruction input from an operation unit of the MFP illustrated in FIG. 2. FIG. 5 is a sequence diagram illustrating a transition to an energy saving state in accordance with an instruction input from the operation unit of the PC illustrated in FIG. 4.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  First, the configuration of the network system according to the present embodiment will be described.

  FIG. 1 is a block diagram of a network system 10 according to the present embodiment.

  As shown in FIG. 1, the network system 10 includes an MFP (Multifunction Peripheral) 20 that is an image forming apparatus, and a PC (Personal Computer) 30 that is an apparatus external to the MFP 20. The MFP 20 and the PC 30 are communicably connected to each other via a network 11 such as a LAN (Local Area Network) or the Internet.

  FIG. 2 is a block diagram of the MFP 20.

  As shown in FIG. 2, the MFP 20 includes a control unit 21 that controls the entire MFP 20, a storage unit 22 that is a storage device such as an EEPROM (Electrically Erasable Programmable Read Only Memory) that stores various data, and a user. An operation unit 23 that is an input device such as a button for inputting various operations according to, a display unit 24 that is a display device such as an LCD (Liquid Crystal Display) that displays various information, and a print that performs printing on paper The printer 25 is a device, the scanner 26 is a reading device that reads an image from a document, and a fax device that performs fax communication with an external facsimile apparatus (not shown) via a communication line such as a public telephone line. And Akkusu communication unit 27, and a network communication unit 28 is a network communication device for communicating with an external device via the network 11.

  The MFP 20 has two states: a normal state and an energy saving state that consumes less energy than the normal state. Here, the energy saving state is a state in which the MFP 20 cannot be returned to the normal state by a command from the PC 30 by turning off the power.

  The control unit 21 includes, for example, a CPU (Central Processing Unit), a ROM (Read Only Memory) that stores programs and various data in advance, and a RAM (Random Access Memory) used as a work area of the CPU. ing. The CPU is configured to execute a program stored in the ROM or the storage unit 22.

  The storage unit 22 stores an image forming apparatus program 22 a that is a program for the MFP 20.

  The image forming apparatus program 22a may be installed in the MFP 20 at the manufacturing stage of the MFP 20, or may be installed from a storage medium such as a CD (Compact Disk) or a DVD (Digital Versatile Disk), or from the network 11 on the MFP 20. It may be additionally installed.

  FIG. 3 is a diagram for explaining the function of the control unit 21.

  As shown in FIGS. 2 and 3, the control unit 21 executes the image forming apparatus program 22a stored in the storage unit 22 to thereby manage the power source of the MFP as a power management unit 21a. The MFP 20 receives a timer setting command, which is a command for setting a timer for shifting from the normal state to the energy saving state, from the operation unit 23, and receives a timer setting command from the PC 30 via the network communication unit 28. The network communication unit timer setting interface 21c for receiving and the operation unit prohibition for receiving from the operation unit 23 a prohibition setting command which is a command for setting a prohibition which is a condition for prohibiting the MFP 20 from shifting from the normal state to the energy saving state by the timer. Setting interface 21d, network The network communication unit prohibition setting interface 21e that receives a prohibition setting command from the PC 30 via the communication unit 28, and the operation unit energy saving command that receives from the operation unit 23 an energy saving state transition command that is a command to shift the MFP 20 from the normal state to the energy saving state. A network communication unit energy saving state transition interface 21g as a command receiving means for receiving an energy saving state transition command from the PC 30 via the state transition interface 21f and the network communication unit 28, and a timer for the MFP 20 to transition from the normal state to the energy saving state. Timer setting API (Application Program Interface) 21h for instructing the power management unit 21a to set, prohibition setting API 21i for instructing the power management unit 21a to set prohibition, and the MFP 20 in the normal state Function as energy saving state transition API21j for instructing to shift to Luo energy saving state to the power management unit 21a.

  FIG. 4 is a block diagram of the PC 30.

  As shown in FIG. 4, the PC 30 includes a control unit 31 that controls the entire PC 30, a storage unit 32 that is a storage device such as an HDD (Hard Disk Drive) that stores programs and various types of data, and a user An operation unit 33 that is an input device such as a mouse and a keyboard to which various operations are input, a display unit 34 that is a display device such as an LCD that displays various information, and the external device via the network 11 are communicated. And a network communication unit 35 which is a network communication device.

  The control unit 31 includes, for example, a CPU, a ROM that stores programs and various data in advance, and a RAM that is used as a work area of the CPU. The CPU is configured to execute a program stored in the ROM or the storage unit 32.

  The control unit 31 executes a utility software stored in the storage unit 32 to transmit a timer setting command to the MFP 20 via the network communication unit 35 in accordance with an instruction input from the operation unit 33. A prohibition setting unit 31b that transmits a prohibition setting command to the MFP 20 via the network communication unit 35 according to an instruction input from the operation unit 33, and an energy saving state transition command according to the instruction input from the operation unit 33 to the network communication unit 35. And functions as an energy saving state transition unit 31c that transmits to the MFP 20.

  FIG. 5 is a hierarchy diagram of an example of the software of the network system 10.

  As shown in FIG. 5, the MFP 20 includes an OS (Operating System) 41, a controller application 42 for executing various functions of the MFP 20 such as copying, faxing, printing, scanning, and power-off, and utility software 39 of the PC 30. A Web Service Description Language (WSDL) 43 that can receive instructions from the API, an API 44 that connects the controller application 42 and the WSDL 43, a Java platform 45 that runs on the OS 41, and a Java application 46 that runs on the Java platform 45. And a Web browser 47 that receives an operation from the operation unit 23 and displays the operation on the display unit 24. The Java platform 45 includes a Java API 45 a that connects the API 44 and the Java application 46.

  The web browser 47 can receive instructions from the utility software 39 of the PC 30. Therefore, the utility software 39 of the PC 30 can not only give an instruction to the controller application 42 via the WSDL 43 and the API 44 in order, but also the controller application 42 via the Web browser 47, the Java application 46, the Java API 45 a, and the API 44 in order. Can give instructions.

  The power management unit 21a described above is an example of the controller application 42.

  The operation unit timer setting interface 21b, the operation unit prohibition setting interface 21d, and the operation unit energy-saving state transition interface 21f described above are examples of the Java API 45a.

  The network communication unit timer setting interface 21c, the network communication unit prohibition setting interface 21e, and the network communication unit energy saving state transition interface 21g described above are examples of the WSDL 43.

  The timer setting API 21h, the prohibition setting API 21i, and the energy saving state transition API 21j described above are examples of the API 44.

  The timer setting unit 31a, the prohibition setting unit 31b, and the energy saving state transition unit 31c described above are examples of the utility software 39.

  Next, the operation of the network system 10 will be described.

<Transition to Energy Saving State According to Instruction Input from Operation Unit 23 of MFP 20>
FIG. 6 is a sequence diagram illustrating a transition to the energy saving state in accordance with an instruction input from the operation unit 23 of the MFP 20.

  As shown in FIG. 6, when the user inputs an energy saving state transition command from the operation unit 23 of the MFP 20 (S101), the energy saving state transition interface 21f for the operation unit of the MFP 20 displays the energy saving state transition command input from the operation unit 23. And instructing the energy saving state transition API 21j to shift the MFP 20 from the normal state to the energy saving state (S102).

  The energy saving state transition API 21j instructs the power management unit 21a to shift the MFP 20 from the normal state to the energy saving state when the operation unit energy saving state transition interface 21f is instructed to shift the MFP 20 from the normal state to the energy saving state. (S103).

  The power management unit 21a then executes a series of processes for shifting the MFP 20 from the normal state to the energy saving state when instructed by the energy saving state transition API 21j to shift the MFP 20 from the normal state to the energy saving state (S104).

<Transition to energy saving state according to instructions input from operation unit 33 of PC 30>
FIG. 7 is a sequence diagram showing the transition to the energy saving state in accordance with the instruction input from the operation unit 33 of the PC 30.

  As shown in FIG. 7, when the user inputs an energy saving state transition command from the operation unit 33 of the PC 30 (S121), the energy saving state transition unit 31c of the PC 30 receives the energy saving state transition command input from the operation unit 33. Then, an energy saving state transition command is transmitted to the MFP 20 (S122).

  Then, the energy saving state transition interface 21g for the network communication unit of the MFP 20 receives the energy saving state transition command from the PC 30 via the network communication unit 28, and instructs the energy saving state transition API 21j to shift the MFP 20 from the normal state to the energy saving state. An instruction is given (S123).

  When the power saving state transition API 21j is instructed by the network communication unit energy saving state transition interface 21g to shift the MFP 20 from the normal state to the energy saving state, the power management unit 21a instructs the power management unit 21a to shift the MFP 20 from the normal state to the energy saving state. An instruction is given (S124).

  Then, when the power management unit 21a is instructed by the energy saving state transition API 21j to shift the MFP 20 from the normal state to the energy saving state, the power management unit 21a executes a series of processes for shifting the MFP 20 from the normal state to the energy saving state (S125). That is, the power management unit 21a shifts the MFP 20 from the normal state to the energy saving state in accordance with the energy saving state transition command received by the network communication unit energy saving state transition interface 21g.

<Timer settings>
When the user inputs a timer setting command from the operation unit 23 of the MFP 20, the operation unit timer setting interface 21b and the timer setting API 21h operate in the same manner as the operation unit energy saving state transition interface 21f and the energy saving state transition API 21j shown in FIG. Therefore, the power management unit 21a sets a timer according to the timer setting command.

  When the user inputs a timer setting command from the operation unit 33 of the PC 30, the timer setting unit 31a, the network communication unit timer setting interface 21c, and the timer setting API 21h are used for the energy saving state transition unit 31c and the network communication unit shown in FIG. Since it operates in the same manner as the energy saving state transition interface 21g and the energy saving state transition API 21j, the power management unit 21a sets a timer according to a timer setting command.

  For example, the timer may be an elapsed time since the MFP 20 was last used by the user. When the elapsed time since the MFP 20 was last used by the user is set as a timer, the power management unit 21a displays the MFP 20 when the set time has elapsed since the MFP 20 was last used by the user. Transition from the normal state to the energy-saving state.

  The timer may be a time. When the time is set as the timer, the power management unit 21a shifts the MFP 20 from the normal state to the energy saving state when the clock inside the MFP 20 reaches the set time.

<Prohibition setting>
When the user inputs a prohibition setting command from the operation unit 23 of the MFP 20, the operation unit prohibition setting interface 21d and the prohibition setting API 21i operate in the same manner as the operation unit energy saving state transition interface 21f and the energy saving state transition API 21j illustrated in FIG. Therefore, the power management unit 21a sets a prohibition according to the prohibition setting command.

  When the user inputs a prohibition setting command from the operation unit 33 of the PC 30, the prohibition setting unit 31b, the network communication unit prohibition setting interface 21e, and the prohibition setting API 21i are used for the energy saving state transition unit 31c and the network communication unit shown in FIG. Since it operates in the same manner as the energy saving state transition interface 21g and the energy saving state transition API 21j, the power management unit 21a sets prohibition according to the prohibition setting command.

  For example, the prohibition may be a condition that a network cable is connected to the MFP 20. When the condition that the network cable is connected to the MFP 20 is set as a prohibition, the power management unit 21a shifts the MFP 20 from the normal state to the energy saving state according to the timer setting when the network cable is connected to the MFP 20. There is nothing.

  The prohibition may be a condition that a FAX board is installed in the MFP 20. When the condition that the FAX board is installed in the MFP 20 is set as a prohibition, the power management unit 21a changes the MFP 20 from the normal state to the energy saving state according to the timer setting when the FAX board is installed in the MFP 20. There is no migration.

  As described above, since the MFP 20 shifts from the normal state to the energy saving state in accordance with the energy saving state shift command received from the PC 30, the MFP 20 shifts from the normal state to the energy saving state in accordance with an instruction from a remote user who uses the PC 30. Can do.

  The MFP 20 is in a state where the energy saving state is a state in which the MFP 20 cannot be returned to the normal state by a command from the PC 30, and thus the energy saving state is a state in which the MFP 20 can be returned to the normal state by a command from the PC 30. In comparison, it is possible to shift to an energy saving state with less energy consumption.

  Since the MFP 20 is in a state in which the energy saving state cannot return to the normal state of the MFP 20 by a command from the PC 30, even if the MFP 20 shifts to the energy saving state in accordance with an instruction input from the operation unit 33 of the PC 30, the operation unit of the MFP 20 It is possible to return to the normal state only by an instruction input from the terminal 23.

  Note that the MFP 20 replaces the energy saving state in which the MFP 20 cannot be returned to the normal state by an instruction from the PC 30, or in addition to the energy saving state in which the MFP 20 cannot be returned to the normal state by an instruction from the PC 30. The MFP 20 may be in an energy saving state in which the MFP 20 can be returned to the normal state by a command from the PC 30.

  When the MFP 20 can be in a plurality of energy saving states, the energy saving state transition command is distinguished for each energy saving state, whereby an arbitrary energy saving state is determined according to a user instruction from the operation unit 23 of the MFP 20 or the operation unit 33 of the PC 30. Can be migrated to.

  When the MFP 20 enters an energy saving state in which the MFP 20 can be returned to the normal state by an instruction from the PC 30, not only by an instruction input from the operation unit 23 of the MFP 20 but also an instruction input from the operation unit 33 of the PC 30. Can also return to the normal state.

  The MFP 20 includes two interfaces, an operation unit timer setting interface 21b and a network communication unit timer setting interface 21c, as interfaces for receiving timer setting commands. However, the MFP 20 includes three or more interfaces. May be. Examples of means for realizing the interface include WSDL 43 and Java API 45a. Only an interface type is required. The MFP 20 can cope with one timer setting API 21h no matter how many interfaces that receive the timer setting command.

  In addition, the MFP 20 includes two interfaces, a prohibition setting interface 21d for an operation unit and a prohibition setting interface 21e for a network communication unit, as interfaces for receiving a prohibition setting command. However, the MFP 20 includes three or more interfaces. May be. Examples of means for realizing the interface include WSDL 43 and Java API 45a. Only an interface type is required. The MFP 20 can cope with one prohibition setting API 21 i no matter how many interfaces accepting the prohibition setting command.

  The MFP 20 includes two interfaces, ie, an energy saving state transition interface 21f for the operation unit and an energy saving state transition interface 21g for the network communication unit, as interfaces for receiving the energy saving state transition command. It may be. Examples of means for realizing the interface include WSDL 43 and Java API 45a. Only an interface type is required. The MFP 20 can cope with one energy-saving state transition API 21j regardless of the number of interfaces for receiving the energy-saving state transition command.

  The image forming apparatus of the present invention is an MFP in the present embodiment, but may be an image forming apparatus other than the MFP, such as a printer dedicated machine.

  The external device of the present invention is a PC in the present embodiment, but may be a device other than a PC.

20 MFP (image forming apparatus)
21a Power management unit (power management means)
21g Energy saving state transition interface for network communication part (command receiving means)
22a Image forming apparatus program 30 PC (external apparatus)

Claims (3)

An image forming apparatus having at least two states: a normal state and an energy-saving state that consumes less energy than the normal state,
Command receiving means for receiving an energy saving state transition command, which is a command for shifting the image forming apparatus from the normal state to the energy saving state, from an external device of the image forming apparatus, and power management for managing the power of the image forming apparatus Means and
The image forming apparatus, wherein the power management means shifts the image forming apparatus from the normal state to the energy saving state in accordance with the energy saving state transition command received by the command receiving means.   The image forming apparatus according to claim 1, wherein the energy saving state is a state in which the image forming apparatus cannot be returned to the normal state by a command from the external apparatus. An image forming apparatus program executed by an image forming apparatus having at least two states: a normal state and an energy saving state in which energy consumption is less than that in the normal state,
A command receiving step for receiving an energy saving state transition command, which is a command for shifting the image forming device from the normal state to the energy saving state, from a device external to the image forming device; and power management for managing the power of the image forming device And causing the image forming apparatus to execute steps,
The program for an image forming apparatus, wherein the power management step is a step of shifting the image forming apparatus from the normal state to the energy saving state in accordance with the energy saving state transition command received in the command receiving step.

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