JP2010003037A - Image forming device and power control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming device and a power management system shifted to a power saving state or recovered from a state at arbitrary timing even in the case that a power management function should be executed. <P>SOLUTION: When shifted to a sleep mode (S201), the management server makes a packet control function effective (S202), decides a substitution server on the basis of power information (S203), and is shifted to the sleep mode after notifying the fact to the decided image forming device (S204, S205). When receiving the notification (S206), the substitution server stores the sent information in a storage unit (S207). When the notification of shifting to the other mode is sent to the management server (S208-S210), the notification is transferred to the substitution server (S211). When receiving an inquiry (S212), the substitution server stores information included in a packet to update the power information (S213). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an image forming apparatus and a power management system.

  For example, Patent Document 1 discloses an image forming system having a printing apparatus and a power consumption management apparatus connected by network means. That is, each printing apparatus of the image forming system has a plurality of operation modes with different power consumptions, and when the transition is made from one operation mode to another operation mode with different power consumptions, the power consumption management apparatus is connected via the network means. A signal notifying that the power consumption changes is transmitted, and when the power consumption change is increased, the operation mode transition is not executed until a power consumption increase permission notification signal is received from the power consumption management device. It is what. The power consumption management device of the image forming system has a printing device management list storage unit, receives a power consumption change notification from the printing device, and prints the power consumption of each printing device as a printing device management list. Store in the device management list storage means, and if the power consumption change notification from the printing device represents an increase in power consumption, determine whether the increase in power consumption is allowed from the power consumption status of each printing device If permitted, a permission notice is transmitted to the printing apparatus.

JP 2006-268324 A

  Here, consider a case where the power management system is configured so that one of the image forming apparatuses has a power management function as a device for managing power information of devices connected to the network. The image forming apparatus having the power management function must respond to a power management function, for example, when there is a request for power information acquisition from another apparatus via a network. It becomes difficult to shift to the power state. Further, even when an image forming apparatus having a power management function shifts to a power saving state, if there is a request for acquiring power information, it is necessary to return from the power saving state in order to respond to the request.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an image forming apparatus and a power management system capable of shifting to a power saving state or returning from a power saving state at an arbitrary timing even when the power management function is to be executed. And

According to the first aspect of the present invention, there is provided an image forming unit that forms an image, a storage unit that acquires and stores power information including power consumption of other image forming apparatuses connected via a network, and the network. A response unit that receives a request for power information acquisition via the response unit and returns power information stored in the storage unit in response to the request, and the storage unit and the return unit among the other image forming apparatuses The image forming apparatus includes: a selection unit that selects a device that performs management of power information; and a transmission unit that transmits power information stored by the storage unit to the device selected by the selection unit.
According to a second aspect of the present invention, when the device selected by the selection unit performs management of power information, power is supplied from another image forming device connected via the network other than the device. 2. The image forming apparatus according to claim 1, further comprising power information transfer means for transferring the power information to the apparatus when information is received.
According to a third aspect of the present invention, when the device selected by the selection unit performs management of power information, the device receives the request for power information acquisition via the network. The image forming apparatus according to claim 1, further comprising request transfer means for transferring the request to the apparatus.
According to a fourth aspect of the present invention, when the device selected by the selection unit performs management of power information, power supply to the storage unit and the return unit is cut off. Item 4. The image forming apparatus according to any one of Items 1 to 3.

The invention according to claim 5 has a power saving state, has a first image forming apparatus that forms an image, and is connected to the first image forming apparatus via a network and has a power saving state, A second image forming apparatus for forming an image, wherein the first image forming apparatus acquires and stores power information including power consumption of the second image forming apparatus via a network. A reply unit that receives a request for power information acquisition via the network and returns power information stored by the storage unit to the request source in response to the request, and the storage unit and the reply unit. A determination unit configured to determine that the management of power information is delegated to the second image forming apparatus; and power information stored by the storage unit after the determination by the determination unit is transmitted to the second image forming apparatus. Sending It is a power management system including a means.
According to a sixth aspect of the present invention, the first image forming apparatus transfers the power information to the second image forming apparatus when the power information is acquired via the network after the determination by the determining unit. The power management system according to claim 5, further comprising power information transfer means.
The invention according to claim 7 is directed to the second image forming apparatus when the first image forming apparatus receives a request for acquiring power information via the network after the determination by the determining unit. 6. The power management system according to claim 5, further comprising request transfer means for transferring a request.
According to an eighth aspect of the invention, the second image forming apparatus acquires and stores power information transmitted by the transmitting means of the first image forming apparatus, and the first image. 8. A reply unit that receives the request transferred by the request transfer unit of the forming apparatus and returns power information stored by the storage unit to the request source in response to the request. The power management system described in 1.

According to the first aspect, it is possible to shift to the power saving state at an arbitrary timing by delegating the management of the power information to another image forming apparatus.
According to claim 2, it is possible to return from the power saving state at an arbitrary timing.
According to claim 3, it is possible to return from the power saving state at an arbitrary timing.
According to the fourth aspect of the present invention, it is possible to reduce the power consumption of the image forming apparatus while the power information is managed by another image forming apparatus.
According to claim 5, it is possible to shift the first image forming apparatus to the power saving state at an arbitrary timing and return from the power saving state by substituting the management of power information to the second image forming apparatus. become.
According to the sixth aspect, the first image forming apparatus can be returned from the power saving state at an arbitrary timing.
According to the seventh aspect, the first image forming apparatus can be returned from the power saving state at an arbitrary timing.
According to the eighth aspect, it is possible to send a reply without going through the first image forming apparatus when responding to the request for acquiring the power information.

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
FIG. 1 is a diagram illustrating an example of the configuration of the power management system PS of the present embodiment.
As shown in the figure, the power management system PS is configured by connecting a plurality of terminal apparatuses 10A, 10B and image forming apparatuses 20A, 20B, 20C to a network NW. Hereinafter, the terminal apparatuses 10A and 10B may be simply referred to as the terminal apparatus 10, and the image forming apparatuses 20A, 20B, and 20C may be simply referred to as the image forming apparatus 20.
In the power management system PS, for example, when a print instruction is transmitted from each of the plurality of terminal devices 10 to the image forming apparatus 20 via the network NW, the image forming apparatus 20 receives the print instruction and prints on a sheet. Configured to do. As described above, the power management system PS is configured to allow the user to use the image forming apparatus 20 under the environment of the network NW.

  The terminal device 10 is a device that creates image data and outputs it to the outside. For example, a computer main body that executes calculations by executing software, a display device such as a display, and an input device that inputs data to the computer main body Etc. As the terminal device 10, for example, a personal computer, a workstation, or another computer is used.

  The image forming apparatus 20 is an apparatus that prints an image on a medium and outputs it as a print document. More specifically, the image forming apparatus 20 has a plurality of power modes (operation modes) with different power consumption. As an example of the power mode, a warm-up mode when the power switch is turned on and the image forming apparatus 20 is turned on, a run mode for executing the generated job, and standby for the occurrence of the job. Standby mode, low power mode (low power mode) that transitions to reduce power consumption when standby mode is continued for a predetermined time, and further power consumption when low power mode is continued for a predetermined time And a sleep mode that makes a transition to reduce the above. Hereinafter, the run mode and the standby mode may be referred to as a normal mode as a mode that operates in a normal operation state, and the low power mode and the sleep mode may be referred to as a power saving mode (power saving mode). The power consumption in the power saving mode is lower than the power consumption in the normal mode, and in the power saving mode, the power consumption in the sleep mode (sleep power) is lower than the power consumption in the low power mode. That is, the power consumption in the sleep mode is the lowest among these modes.

In addition, each of the image forming apparatuses 20A, 20B, and 20C has a power management function for managing the power consumption of the electrical devices connected to the network NW. This power management function includes a storage unit 26 as an example of a storage unit that acquires and stores power information, and a device control unit 25 as an example of a return unit that returns a response in response to a request for power information acquisition. Done.
The image forming apparatus (first image forming apparatus) 20A among the image forming apparatuses 20A, 20B, and 20C is set to function as a power management server in an initial state. The other image forming apparatuses 20B and 20C are set to function as proxy servers when the image forming apparatus 20A cannot function as a power management server.
Here, when the image forming apparatuses 20B and 20C functioning as proxy servers transition to modes with different power consumption, the image forming apparatus 20A is notified of the mode after transition or the power consumption after transition via the network NW. To do. In addition, when the image forming apparatus 20A functioning as a power management server shifts to the sleep mode, the image forming apparatus (second image forming apparatus) 20B or the image forming apparatus 20C determines what is to be a proxy server. A predetermined processing procedure is performed.

The network NW can be configured by, for example, a LAN (Local Area Network) based on Ethernet (registered trademark). More specifically, data can be transmitted and received between the terminal device 10 and the image forming apparatus 20 via the network NW. That is, the terminal device 10 can instruct printing by transmitting print data to the image forming apparatus 20 via the network NW. In addition, the image forming apparatus 20 can detect the number of terminal apparatuses 10 connected to the network NW.
When data transfer is performed between the terminal device 10 and the image forming apparatus 20 via the network NW, negotiation for establishing data communication between the transmission source and the transmission destination is performed. The term “negotiation” can also be said to mean that hardware devices exchange information regarding communication (communication conditions).

FIG. 2 is a block diagram illustrating a configuration example of the image forming apparatus 20.
As shown in the figure, the image forming apparatus 20 according to the present embodiment acquires image data to be processed from, for example, a scanner or a terminal device 10 connected to a network NW as various functions such as image processing. The image acquisition unit 21 includes an image processing unit 22 that processes the acquired image data, and an image forming unit 23 that outputs the processed image data.
The image forming unit 23 may be an electrophotographic system that forms a toner image on a medium such as paper, but other systems such as an ink jet system that forms an image by ejecting ink onto a medium such as paper. It may be used.

Further, the image forming apparatus 20 includes a control unit 24 that controls the entire apparatus. The control unit 24 includes an apparatus control unit (an example of a reply unit, an example of a selection unit, an example of a determination unit) 25 that controls the image acquisition unit 21, the image processing unit 22, and the image forming unit 23, and power for controlling a packet. And a communication control unit 30 as an example of an information transfer unit and an example of a request transfer unit.
The device control unit 25 includes a storage unit 26 for storing various types of information (power information) necessary for control and power management.

The communication control unit 30 includes a network control unit 31 as an interface for connecting the image forming apparatus 20 to the network NW, and a packet receiving unit 32 that receives packets via the network control unit 31. Further, the communication control unit 30 realizes a packet interpretation unit 33 that interprets a packet received by the packet reception unit 32 and a packet control function that transmits a signal for returning the device control unit 25 from the sleep mode to the device control unit 25. A packet control unit 34. The communication control unit 30 also includes a packet processing unit 35 that processes the packet received by the packet receiving unit 32, and a packet as an example of a transmission unit that transmits the packet to a predetermined destination via the network control unit 31. And a transmission unit 36.
The packet includes a header part and a data part. This header portion includes information such as a packet source address and a destination address.

The packet interpretation unit 33 determines whether or not the received packet is a power display request packet from the terminal device 10, and if so, sends the packet to the packet processing unit 35. Further, the packet interpretation unit 33 determines whether or not the received packet is a packet for notifying that the power state of the other image forming apparatus 20 is changed, and whether or not it is necessary to transfer to the other image forming apparatus 20. If both are determined, the packet is sent to the packet processing unit 35. Further, the packet interpretation unit 33 sends the received packet to the device control unit 25 when the packet control unit 34 determines that the return from the sleep mode is necessary as will be described later.
Note that when packet transfer is necessary here, when the image forming apparatus 20A as the power management server is set as the proxy server for the sleep mode, for example, when the image forming apparatus 20B is set as the proxy server, For example, a case where the image forming apparatus 20A receives a packet notifying that the power state is changed from the image forming apparatus 20C can be given. In that case, the packet is transferred to the image forming apparatus 20B of the proxy server.

  The packet control unit 34 determines whether or not the received packet needs to return from the sleep mode. If the packet control unit 34 determines that the return is necessary, the packet control unit 34 instructs the device control unit 25 to return from the sleep mode (return instruction). . The packet control unit 34 is configured to operate in the sleep mode and to be inactive in modes other than the sleep mode.

  The packet processing unit 35 processes a part of the received packet. That is, the packet processing unit 35 processes the packet to be transferred to the proxy server by replacing the destination address included in the header portion of the packet with another image forming apparatus 20 as the proxy server. Thereafter, error detection is performed when transmission / reception is performed by performing a check sum.

Here, when the power mode of the image forming apparatus 20 is the sleep mode, power supply to the image acquisition unit 21, the image processing unit 22, and the image forming unit 23 is cut off. In the sleep mode, power supply to the device control unit 25 of the control unit 24 is interrupted. In this way, power consumption during the sleep mode is suppressed.
On the other hand, even in the sleep mode, power supply to the communication control unit 30 of the control unit 24 is not interrupted and power is supplied.

FIG. 3 is a flowchart illustrating a processing procedure when power management is performed by the image forming apparatus 20A of the power management server.
In the power management system PS according to the present embodiment, the image forming apparatus 20A is set as the power management server in the initial state. For this reason, in the flowchart shown in the figure, when the image forming apparatuses 20B and 20C shift to another mode with different power consumption (step 101), the image forming apparatus 20A is in a mode after transition or after transition. The power consumption is notified via the network NW (step 102). That is, in the image forming apparatuses 20B and 20C, when the apparatus control unit 25 (see FIG. 2) of the control unit 24 determines to shift to another mode, the information to be notified and the destination of the image forming apparatus 20A. A packet including information is created and sent to the packet transmission unit 36 (see FIG. 2) of the communication control unit 30. Thus, the packet is transmitted from the packet transmission unit 36 to the image forming apparatus 20A via the network control unit 31 (see FIG. 2) and the network NW.

The image forming apparatus 20A receives notifications from the image forming apparatuses 20B and 20C (step 103). That is, in the image forming apparatus 20A, the packets from the image forming apparatuses 20B and 20C are received by the packet receiving unit 32 (see FIG. 2), and are sent to the device control unit 25 via the packet interpreting unit 33 (see FIG. 2). The included information is sent. Note that when this processing is performed, the packet control unit 34 is inactive because the image forming apparatus 20A has not transitioned to the sleep mode.
The device control unit 25 stores the information included in the packet in the storage unit 26 and updates the power information (step 104).

  Then, when the terminal device 10 inquires of the power management server via the network NW about the power consumption of each of the image forming apparatuses 20A, 20B, and 20C or individual power consumption (step 105). The image forming apparatus 20A receives the inquiry (step 106) and returns an answer to the inquiry (step 107).

Specifically, the terminal device 10 has acquired in advance information that the image forming apparatus 20A is a power management server. Therefore, when inquiring about power consumption, the terminal device 10 transmits a packet including the inquiry content to the image forming apparatus 20A.
In the image forming apparatus 20 </ b> A, when the packet receiving unit 32 receives a packet from the terminal device 10, the packet interpretation unit 33 interprets the packet and sends it to the device control unit 25. The device control unit 25 creates a packet including the requested power information stored in the storage unit 26 and transmits the packet to the terminal device 10 that has made the inquiry. That is, since the image forming apparatus 20A acquires the power information of the image forming apparatuses 20B and 20C in advance and stores them in the storage unit 26, even if the image forming apparatuses 20B and 20C transition to the sleep mode, the terminal It is possible to respond to requests from the device 10.

  When receiving the packet from the image forming apparatus 20A (step 108), the terminal apparatus 10 acquires power information by analyzing the packet, and displays the acquired power information on the display screen (step 109).

FIG. 4 is a flowchart illustrating a processing procedure when power management performed by the image forming apparatus 20A of the power management server is performed.
In the flowchart shown in the figure, when the device control unit 25 of the image forming apparatus 20A decides to shift to the sleep mode in order to reduce power consumption (step 201), the packet control function is activated by operating the packet control unit 34. After validating (step 202), the proxy server is determined based on the power information stored in the storage unit 26 (step 203).
The determination of the proxy server will be described. The device control unit 25 of the image forming apparatus 20A refers to the power information stored in the storage unit 26 and has not transitioned to the sleep mode from the image forming apparatuses 20B and 20C. Search for an image forming apparatus. For example, when the image forming apparatus 20C transitions to the sleep mode and the image forming apparatus 20B does not transition to the sleep mode, the image forming apparatus 20B is determined as the proxy server. In the present embodiment, the following description will be continued on the assumption that the image forming apparatus 20B is determined as the proxy server.

  Here, for example, when neither of the image forming apparatuses 20B and 20C has transitioned to the sleep mode, it may be possible to search for an image forming apparatus that has transitioned to the low power mode or the standby mode. Further, when both of the image forming apparatuses 20B and 20C are in the sleep mode, it may be considered to search for an image forming apparatus with low power.

The apparatus control unit 25 notifies the image forming apparatus 20B determined as the proxy server that the server right is to be transferred via the network NW (step 204), and then transitions to the sleep mode (step 205). In other words, in the image forming apparatus 20A, when determining the proxy server, the apparatus control unit 25 creates a packet including the destination information of the image forming apparatus 20B and information to be notified to the image forming apparatus 20B, and sends the packet to the packet transmitting unit 36. send. Thus, the packet is transmitted from the packet transmission unit 36 to the image forming apparatus 20B via the network control unit 31 and the network NW.
Information to be notified from the image forming apparatus 20A to the image forming apparatus 20B includes information on power consumption after the sleep mode transition of the image forming apparatus 20A, and power information managed by the apparatus control unit 25 of the image forming apparatus 20A. , Is included. It is also conceivable that mode information after transition is included instead of information on power consumption in the sleep mode.
Further, the information to be notified includes not only the power information but also the machine status such as the paper information of the tray, so that even when the terminal device 10 makes an inquiry about the machine status, the sleep mode It becomes possible to answer without returning from.

The image forming apparatus 20B receives the notification from the image forming apparatus 20A (step 206). That is, in the image forming apparatus 20B, the packet from the image forming apparatus 20A is received by the packet receiving unit 32, and the information included in the packet is sent to the apparatus control unit 25 through the packet interpretation unit 33.
The apparatus control unit 25 of the image forming apparatus 20B stores information included in the packet in the storage unit 26 (step 207).

Here, the image forming apparatus 20C is neither a power management server nor a proxy server. When the image forming apparatus 20C shifts to another mode with different power consumption (step 208), the image forming apparatus 20A, which is a power management server, is notified of the mode after transition or the power consumption after transition (state) (Transition notification) is performed via the network NW (step 209).
When the image forming apparatus 20A receives the notification (step 210), the image forming apparatus 20A transfers the notice to the image forming apparatus 20B serving as the proxy server (step 211).

  The transfer from the image forming apparatus 20A to the image forming apparatus 20B will be specifically described. In the image forming apparatus 20A, when the packet receiving unit 32 receives a packet from the image forming apparatus 20C via the network control unit 31, the packet interpreting unit 33 interprets the packet and sends the packet to the packet processing unit 35. The packet processing unit 35 processes a part of the packet and transfers it as a packet addressed to the image forming apparatus 20B, which is a proxy server.

When the image forming apparatus 20B serving as the proxy server receives the inquiry transferred from the image forming apparatus 20A (step 212), the apparatus control unit 25 of the image forming apparatus 20B stores the information included in the packet in the storage unit 26. The power information is updated (step 213).
In addition, when the image forming apparatus 20B performs power management, the image forming apparatus 20B transitions to the image forming apparatus 20A of the power management server when transitioning to another power mode with different power consumption. Without notifying the subsequent mode or the power consumption after the transition, it is stored in the storage unit 26 provided in itself and the power information is updated.

  Although the case where the image forming apparatus 20C, which is neither the power management server nor the proxy server, has been notified that the mode is changed to another mode with different power consumption, the inquiry about the power consumption from the terminal apparatus 10 is substituted. Also when transferring to the server, as described later, the transfer to the proxy server is performed.

FIG. 5 is a flowchart showing another processing procedure when power management performed by the image forming apparatus 20A of the power management server is performed. Since steps 301 to 307 in FIG. 5 are the same as steps 201 to 207 in FIG. 4 described above, description thereof is omitted.
When the terminal device 10 inquires of the power management server via the network NW about the power consumption of the entire image forming apparatuses 20A, 20B, and 20C or individual power consumption (step 308), the terminal device 10 is a power management server. The image forming apparatus 20A receives the inquiry (step 309), and transfers it to the image forming apparatus 20B that is a proxy server (step 310).

More specifically, when the packet receiving unit 32 receives a packet from the terminal device 10 via the network control unit 31 in the image forming apparatus 20A, the packet interpretation unit 33 interprets the packet and sends it to the packet processing unit 35. . The packet processing unit 35 processes a part of the packet and transfers it as a packet addressed to the image forming apparatus 20B, which is a proxy server.
When such processing is performed, the image forming apparatus 20A is in the sleep mode, and the packet control unit 34 is operating. When the received packet is an inquiry about power consumption, the packet control unit 34 determines that there is no need to return from the sleep mode, and does not send a return instruction signal to the device control unit 25. .

When receiving the inquiry transferred from the image forming apparatus 20A (step 311), the image forming apparatus 20B serving as the proxy server responds by transmitting an answer to the inquiry to the terminal apparatus 10 (step 312).
Specifically, in the image forming apparatus 20B, when the packet receiving unit 32 receives a packet transferred from the image forming apparatus 20A, the packet interpreting unit 33 interprets the packet and sends the packet to the apparatus control unit 25. The device control unit 25 reads out the requested power information stored in the storage unit 26 and creates a packet. Then, the device control unit 25 transmits the created packet to the inquiring terminal device 10, that is, the transmission source address of the transferred packet.

  Upon receiving the packet from the image forming apparatus 20B (step 313), the terminal device 10 acquires power information by analyzing the packet, and displays the acquired power information on the display screen (step 314).

  As described above, the image forming apparatus 20A, which is a power management server, can make a transition to a sleep mode with low power consumption by determining another image forming apparatus 20B serving as a proxy server and transferring the server right. . More specifically, for example, when a print instruction from the terminal device 10 is issued to the image forming apparatuses 20B and 20C and a print instruction is not issued to the image forming apparatus 20A, the mode transits to the sleep mode for a while. The image forming apparatus 20A can transition to the sleep mode by using any one of the image forming apparatuses 20B and 20C that does not occur as a proxy server.

FIG. 6 is a flowchart showing a processing procedure when power management is transferred from the image forming apparatus 20B of the proxy server to the image forming apparatus 20A of the power management server.
In the flowchart shown in the figure, when the apparatus control unit 25 of the image forming apparatus 20A decides to return from the sleep mode, for example, by receiving a print job, the mode is changed (step 401), and the packet control unit 34 is deactivated. Thus, after invalidating the packet control function (step 402), the proxy server image forming apparatus 20B is notified of returning the server right via the network NW (step 403).

When the image forming apparatus 20B receives the notification from the image forming apparatus 20A (step 404), the apparatus control unit 25 of the image forming apparatus 20B reads the power information stored in the storage unit 26 and the information included in the packet. The image data is transmitted to the image forming apparatus 20A via the network NW (step 405), and the power information stored in the storage unit 26 is deleted (step 406).
When the image forming apparatus 20A receives the power information from the image forming apparatus 20B (step 407), the image forming apparatus 20A stores the power information in the storage unit 26 and updates the power information (step 408). In this way, power management moves from the image forming apparatus 20B serving as the proxy server to the image forming apparatus 20A serving as the power management server, and thereafter, the power management as shown in FIG. 3 is performed by the image forming apparatus 20A.

It is a figure which shows an example of a structure of the power management system of this Embodiment. 1 is a block diagram illustrating a configuration example of an image forming apparatus. 10 is a flowchart illustrating a processing procedure when power management is performed by the image forming apparatus of the power management server. 5 is a flowchart illustrating a processing procedure when power management performed by an image forming apparatus of a power management server is performed on behalf of the power management server. 10 is a flowchart illustrating another processing procedure when power management performed by the image forming apparatus of the power management server is performed. 10 is a flowchart illustrating a processing procedure when power management is transferred from an image forming apparatus of a proxy server to an image forming apparatus of a power management server.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10,10A, 10B ... Terminal device 20, 20A, 20B, 20C ... Image forming device 24 ... Control unit 25 ... Device control unit 26 ... Storage unit 30 ... Communication control unit 31 ... Network control unit 32 ... Packet receiving unit, 33 ... Packet interpreting unit, 34 ... Packet control unit, 35 ... Packet processing unit, 36 ... Packet transmitting unit, NW ... Network

Claims (8)

An image forming means for forming an image;
Storage means for acquiring and storing power information including power consumption of other image forming apparatuses connected via a network;
A reply unit that receives a request for power information acquisition via the network and returns the power information stored by the storage unit in response to the request;
A selection unit that selects a device that performs power information management by the storage unit and the reply unit from the other image forming apparatuses;
Transmitting means for transmitting power information stored by the storing means to the device selected by the selecting means;
An image forming apparatus including:   When the device selected by the selection unit performs management of power information, when the power information is received from another image forming device connected via the network other than the device, The image forming apparatus according to claim 1, further comprising a power information transfer unit that transfers the power information.   Request transfer for transferring the request to the device when receiving the request for acquiring the power information via the network when the device selected by the selection unit is managing power information. The image forming apparatus according to claim 1, further comprising means.   4. The power supply to the storage unit and the reply unit is cut off when the device selected by the selection unit performs management of power information. 5. The image forming apparatus described in 1. A first image forming apparatus that has a power saving state and forms an image;
A second image forming apparatus connected to the first image forming apparatus via a network, having a power saving state, and forming an image;
Including
The first image forming apparatus includes:
Storage means for acquiring and storing power information including power consumption of the second image forming apparatus via a network;
A reply means for receiving a request for power information acquisition via the network and returning power information stored by the storage means to the request source in response to the request;
Determining means for determining that the second image forming apparatus is to perform the management of power information by the storing means and the reply means;
Transmitting means for transmitting power information stored by the storing means to the second image forming apparatus after determination by the determining means;
Including power management system.   The first image forming apparatus further includes power information transfer means for transferring the power information to the second image forming apparatus when power information is acquired via the network after the determination by the determining means. The power management system according to claim 5.   The first image forming apparatus further includes request transfer means for transferring the request to the second image forming apparatus when a request for acquiring power information via the network is received after the determination by the determining means. The power management system according to claim 5, further comprising: The second image forming apparatus includes:
Storage means for acquiring and storing power information transmitted by the transmission means of the first image forming apparatus;
A reply unit that receives the request transferred by the request transfer unit of the first image forming apparatus and returns power information stored by the storage unit to the request source in response to the request;
The power management system according to claim 7, comprising:

Images