JP2010041529A - Image processor and power management apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image processor and a power management apparatus capable of confirming an effect of power saving beforehand when performing power saving setting. <P>SOLUTION: An image forming apparatus 20 includes a printer 21, a UI device 22, an image reader 23 and a control device 24. The control device 24 includes: a log generation section 31 for generating a log in which a status of state transition by device is recorded; an arithmetic section 32 for performing arithmetic operation using the log generated by the log generation section 31; a network control section 33 for transmitting/receiving various data; and a storage section 34 for storing logs, various data, calculation formulas, calculation results and the like. The log generation section 31 includes a printer log generation part 41, a UI device log generation part 42, an image reader log generation part 43 and a control device log generation part 44. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

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

  For example, Patent Document 1 includes a copy mode and a print mode, accurately counts the operation history of each operation mode, and processes various jobs such as the copy mode and the print mode based on the measured time value. A multi-function peripheral that creates log information related to the power of the machine is disclosed.

JP 2003-309684 A

  Here, the power consumption can be reduced by changing the operation settings of devices such as an image input apparatus and an image output apparatus that constitute the image forming apparatus. Then, when the user intends to change the operation setting of the device so as to save power, a format is proposed in which a setting capable of saving power is displayed on the screen and proposed. However, the setting that can save power varies depending on the usage mode of the user. Therefore, even if a plurality of setting examples are determined in advance and stored in the storage unit of the image forming apparatus at the time of product shipment, it may be difficult to obtain a sufficient power saving effect by the setting examples. Conceivable.

  An object of the present invention is to provide an image processing apparatus and a power management apparatus that can confirm in advance the effect of power saving when power saving setting is performed.

The invention according to claim 1 includes a configuration that realizes the first function, has a plurality of operation states including an operation state that consumes power and realizes the first function, and the plurality of operation states A first functional unit whose power consumption is increased or decreased by the transition of the first and second configurations and a configuration for realizing the second function, and having a plurality of operation states including an operation state for consuming the power and realizing the second function A first function unit that generates power history information indicating a history of transition to one of the plurality of operation states with respect to the first function unit; A generation unit, a second generation unit that generates history information indicating a history of transition to one of the plurality of operation states for the second function unit, and the plurality of operation states of the first function unit. Power consumption information and generated by the first generator The history information is acquired to calculate the power consumption amount of the first functional unit, and the power consumption information in the plurality of operation states of the second functional unit and the second generation unit are generated. And a calculation unit that acquires the history information and calculates the power consumption of the second function unit.
According to a second aspect of the present invention, there is provided a first operation instruction that is an instruction that the first function unit and the second function unit operate in conjunction with each other, and the first function unit includes: The information processing apparatus further includes an acquisition unit that acquires a second operation instruction that is an instruction to operate independently, and the calculation unit includes the first function unit and the second operation instruction based on the first operation instruction and the second operation instruction. The image processing according to claim 1, wherein the power consumption consumed by the operation is calculated, and the power consumption consumed by the second function unit operating according to the first operation instruction is calculated. Device.
The invention according to claim 3 further includes an accepting unit that accepts a change in setting related to a time when the first functional unit and the second functional unit transition to one of the plurality of operation states, and the arithmetic unit The image processing apparatus according to claim 1, wherein the power consumption under the setting condition received by the receiving unit is calculated as a predicted value using the history information.
The invention according to claim 4 further includes an output unit that outputs the power consumption amount under the setting condition together with the power consumption amount under the condition before the setting. The image processing apparatus according to 3.

According to the fifth aspect of the present invention, a first function unit that generates history information indicating a history of transition to one of the plurality of operation states with respect to a first functional unit having a plurality of operation states having different power consumption amounts. Generating means, second generating means for generating history information indicating a history of transition to which of the plurality of operation states for the second functional unit having a plurality of operation states having different power consumption amounts, and Obtaining power consumption information in the plurality of operating states of the first function unit and the history information generated by the first generation unit to calculate the power consumption amount of the first function unit; Obtaining power consumption information in the plurality of operating states of the second functional unit and the history information generated by the second generation unit, and calculating power consumption of the second functional unit A power management device including a computing means .
According to a sixth aspect of the present invention, the computing means includes a first operation instruction that is an instruction that causes the first functional unit and the second functional unit to operate in conjunction with each other, and the first functional unit. When the first functional unit and the second functional unit are operated by a second operation instruction that is an instruction that causes the functional unit to operate independently, the first functional unit is The power consumption consumed by operating according to the operation instruction and the second operation instruction is calculated, and the power consumption consumed by the second function unit operating according to the first operation instruction is calculated. The power management apparatus according to claim 5, wherein the power management apparatus is a power management apparatus.
According to a seventh aspect of the present invention, when the calculation unit changes a setting related to a timing of transition to one of the plurality of operation states of the first functional unit and the second functional unit, the setting is performed. The power management apparatus according to claim 5, wherein the power consumption amount under the condition is calculated as a predicted value using the history information.
The invention according to claim 8 further includes output means for outputting the power consumption amount under the setting condition together with the power consumption amount under the condition before the setting. 7. The power management apparatus according to 7.

According to the first aspect, it is possible to confirm in advance the effect of power saving when the power saving setting is performed.
According to the second aspect, it is possible to confirm in advance the power saving effect even in the case of the concurrent operation.
According to the third aspect, it is possible to calculate the power consumption when the setting is changed for each of the first functional unit and the second functional unit.
According to claim 4, it is possible to notify the user of the power consumption before and after the setting change.
According to the fifth aspect, it is possible to confirm in advance the effect of power saving when the power saving setting is performed.
According to the sixth aspect, it is possible to confirm in advance the power saving effect even in the case of the concurrent operation.
According to the seventh aspect, it is possible to calculate the power consumption when the setting is changed for each of the first functional unit and the second functional unit.
According to claim 8, it becomes possible to notify the user of the power consumption before and after the setting change.

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 10 and an image forming apparatus 20 as an example of an image processing apparatus to a communication network NW. In the power management system PS, for example, when a print page is transmitted from each of the plurality of terminal apparatuses 10 to the image forming apparatus 20 via the communication network NW, the image forming apparatus 20 receives the print instruction and prints it on a sheet. It is configured to perform printing. As described above, the power management system PS is configured such that the user can use the image forming apparatus 20 in the environment of the communication 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. The image forming apparatus 20 includes various devices for realizing functions such as image reading processing. Details thereof will be described later.

The communication 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 communication network NW. That is, the terminal device 10 can instruct printing by transmitting print data to the image forming apparatus 20 via the communication network NW. The image forming apparatus 20 can detect the number of terminal devices 10 connected to the communication network NW.
When data transfer is performed between the terminal apparatus 10 and the image forming apparatus 20 via the communication network NW, negotiation for establishing data communication is performed between the transmission source and the transmission destination. 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 in the present embodiment includes a printing apparatus 21 that processes an acquired image and prints it on a sheet, a display screen that displays a predetermined image, and a user operation. A UI device 22 having an operation panel and the like. Further, the image forming apparatus 20 includes an image reading device 23 configured by a scanner or the like that reads an image to be processed, and a control device 24 that controls the entire image forming device 20. As described above, the image forming apparatus 20 includes the printing apparatus 21, the UI apparatus 22, and the image reading apparatus 23 as devices (first functional unit and second functional unit) for the image reading function, the printing function, and the UI function. It has.
Note that the printing apparatus 21 can employ a configuration in which printing is performed using an electrophotographic method in which a toner image is formed on a medium such as paper, but other methods such as discharging ink onto a medium such as paper. An ink jet method for forming an image may be used.

  The UI device 22 forms part of an acquisition unit that acquires operation instructions such as a print job (second operation instruction) and a copy job (first operation instruction). The UI device 22 also constitutes a part of a reception unit that receives a change in setting related to the timing of transition to any one of a plurality of modes (operation states). Moreover, it also constitutes a part of an output unit that outputs a calculation result (power consumption) by the calculation unit 32 described later.

The control device 24 generates a log (history information indicating a history of transition to any one of a plurality of modes) in which a state transition state for each device is recorded, and the log generation unit 31 generates the log. A calculation unit 32 that performs calculation using a log, and a communication control unit 33 that transmits and receives various types of data to and from the terminal device 10 via the communication network NW.
The communication control unit 33 constitutes a part of the acquisition unit, constitutes a part of the reception unit, and also constitutes a part of the output unit, like the UI device 22. . It can be considered that the log generation unit 31, the calculation unit 32, and the communication control unit 33 are configured by, for example, a CPU (Central Processing Unit).

In addition, the control device 24 stores the log generated by the log generation unit 31, stores various data, calculation formulas, and calculation results used for calculation by the calculation unit 32, and uses various data used for transmission / reception by the communication control unit 33. The storage unit 34 is stored. For example, the storage unit 34 may be configured by a RAM (Random Access Memory) and a ROM (Read-Only Memory).
More specifically, the storage unit 34 stores a table (power information table) of power consumption in each state for each device in which power increases or decreases depending on the operating state. Note that the control device 24 can also be referred to as a portion that controls power supply to the printing device 21, UI device 22, and image reading device 23.

The log generation unit 31 includes a printing device log generation unit 41 that generates a log for the printing device 21, a UI device log generation unit 42 that generates a log for the UI device 22, and a log for the image reading device 23. An image reading device log generation unit 43 to generate and a control device log generation unit 44 to generate a log for the control device 24 are provided.
The printing device log generation unit 41, the UI device log generation unit 42, the image reading device log generation unit 43, or the control device log generation unit 44 constitute a first generation unit and a second generation unit. be able to.

More specifically, the image forming apparatus 20 has a plurality of power modes (operation mode and operation state) with different power consumption for each device. For example, in the printing apparatus 21, the power mode includes a print mode for executing a generated job and a ready mode (standby mode) for waiting for the occurrence of a job. Further, the printing apparatus 21 has a sleep mode that transitions to reduce power consumption when the ready mode is continued for a predetermined time, and a warm-up mode that transitions when a job occurs in the sleep mode. The print mode and the ready mode can be referred to as a normal mode that operates in a normal operation state, and the sleep mode can 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.
The UI device 22 has the above-described ready mode and sleep mode as power modes.
The image reading device 23 includes a scan mode for reading an image as the power mode, and the ready mode and the sleep mode described above.

FIG. 3 is a diagram for explaining an example of the power information tables 51, 52, 53, 54 stored in the storage unit 34 of the control device 24.
The power information table 51 shown in the figure is for the printing apparatus 21, and the power consumption in the sleep mode is 1 W. In the standby mode (ready mode), 30 W, and in the warm-up mode, 800 W. is there. In the print mode, if the paper is A4 size, it is 600 Wh per page. In this way, the power consumption differs for each mode, and if there is a mode transition, the power consumption of the printing apparatus 21 increases or decreases.
Further, the power information table 52 shown in the figure is for the UI device 22, and the power consumption in the sleep mode is 0.1 W, and 5 W in the standby mode. The UI device 22 also increases or decreases the power consumption when there is a mode transition.
The power information table 53 shown in the figure is for the image reading device 23, and the power information table 54 shown in the figure is for the control device 24.

FIG. 4 is a time chart for explaining a transition example of each mode of the printing device 21, UI device 22, image reading device 23, and control device 24. In addition, t of the figure shows time.
In the example of the time chart shown in the figure, a print job is generated when the printing device 21, UI device 22, image reading device 23, and control device 24 are in the sleep mode, and a copy job is further generated before the print job is completed. Shows the case. In other words, this time chart shows a case of a concurrent operation in which a plurality of jobs operate in parallel, instead of a single operation in which only one job operates. As another example of the concurrent operation, in a configuration in which the image forming apparatus 10 includes a facsimile apparatus (facsimile function), a case where the user performs facsimile transmission using the UI apparatus 22 during facsimile reception can be considered.
The print job is transmitted from the terminal device 10 and is received by the communication control unit 33 via the communication network NW. A copy job is one in which the UI device 22 receives an instruction operated by a user. In other words, the copy job is an instruction that causes the image reading device 23 and the printing device 21 to operate in conjunction with each other. The print job is an instruction that causes the printing apparatus 21 to operate independently.

When a print job occurs, the printing device 21, UI device 22, image reading device 23, and control device 24 shift from the sleep mode to another mode. That is, the printing apparatus 21 transitions to the print mode after transitioning from the sleep mode to the warm-up mode. Further, the UI device 22, the image reading device 23, and the control device 24 transition to the ready mode.
The copy job is executed when the image reading device 23 scans and the printing device 21 prints the image. Therefore, when a copy job occurs, first, the image reading device 23 shifts from the ready mode to the scan mode. Since the printing apparatus 21 is already in the print mode by executing the print job, the scanned image is printed without changing the mode. In other words, in the case of a single operation, when a copy job is generated, the printing apparatus 21 shifts to the print mode through the warm-up mode.

FIG. 5 is a diagram illustrating the logs 61, 62, 63, 64 generated by the log generation unit 31 of the control device 24 and stored in the storage unit 34.
Logs 61, 62, 63, and 64 shown in the figure are generated in the case of the time chart shown in FIG. The log 61 is a log generated by the printing apparatus log generation unit 41, the log 62 is a log generated by the UI apparatus log generation unit 42, and the log 63 is an image reading apparatus log generation unit 43. Is a log generated by The log 64 is a log generated by the control device log generation unit 44.

Specifically, in the log 61, the sleep mode is continued for 1954 seconds (32 minutes 34 seconds), and then after 10 seconds after the transition to the warm-up mode, printing on A4 paper for 5 pages was performed. Show. And it has shown that it changed to the ready mode and continued for 1800 seconds (30 minutes), and changed to the sleep mode after that and continued for 3600 seconds (1 hour).
In the log 62, the sleep mode continues for 1954 seconds (32 minutes 34 seconds), then transitions to the ready mode, continues for 1840 seconds (30 minutes 40 seconds), and then transitions to the sleep mode for 3600 seconds ( For 1 hour).

  The log 61 shown in FIG. 5 is set so as to shift to the sleep mode when the ready mode continues for 1800 seconds. That is, the power saving setting is 30 minutes. The power consumption amount c of the printing apparatus 21 in such a power saving setting can be obtained as an actual measurement value as follows. Such calculation is performed by the calculation unit 32.

Of the power consumption amount c as the actual measurement value of the printing apparatus 21, the power consumption amount c1 in the sleep mode is:
1 W x (1954 seconds + 3600 seconds) / 3600 seconds = 1.54 Wh
It is. The power consumption amount c2 in the warm-up mode is
800W × 10sec / 3600sec = 2.22Wh
It is. The power consumption c3 in the print mode is
600 Wh x 5 pages = 3000 Wh
It is. The power consumption amount c4 in the ready mode is
30W x 1800 seconds / 3600 seconds = 15Wh
It is. Therefore, the power consumption amount c of the printing apparatus 21 is
c = c1 + c2 + c3 + c4 = 3018.76 Wh
It is.

  In the example of the time chart shown in FIG. 4, the UI device 22 in the sleep mode is set to shift to the ready mode when a print job occurs. The power consumption d of the UI device 22 in such a setting can be obtained as an actual measurement value as follows. Note that such calculation is performed by the calculation unit 32.

Of the power consumption d as the actual measurement value of the UI device 22, the power consumption d1 in the sleep mode is:
0.1 W × (1954 seconds + 3600 seconds) / 3600 seconds = 0.15 Wh
It is. The power consumption d2 in the ready mode is
5W × 1840 seconds / 3600 seconds = 2.56Wh
It is. Therefore, the power consumption d of the UI device 22 is
d = d1 + d2 = 2.71 Wh
It is.

  For the image reading device 23 and the control device 24 as other devices, the calculation unit 32 calculates the power consumption amount by the same calculation. Then, the calculation unit 32 calculates the power consumption amount within a predetermined period of the image forming apparatus 20 by adding the power consumption amounts of all the devices.

  Here, a case where the user changes the setting of the image forming apparatus 20 so as to reduce the power consumption amount by operating the UI device 22 or using the terminal device 10 will be described. Examples of such setting changes include changing the power saving transition time, changing the printing apparatus 21 to a setting that does not warm up until printing, or changing the UI apparatus 22 to a setting that does not start up in a print job. It is possible to do.

As a setting change of the image forming apparatus 20, the change of the power saving transition time will be described first.
FIG. 6 is a diagram for explaining the power consumption when changing the power saving time for transition from the ready mode to the sleep mode in the case of the time chart of FIG. 4. FIG. 7 is a diagram for explaining the power consumption when changing the power saving time for transition from the ready mode to the sleep mode when the log of FIG. 5 is generated.
For example, as shown in FIG. 6 and FIG. 7, when the power saving setting is changed from 30 minutes (1800 seconds) to 1 minute (60 seconds), the job is not generated within one minute. The remaining time is reduced by 1740 seconds, and the sleep mode time is increased accordingly. Since not only the printing device 21 but also the UI device 22, the image reading device 23, and the control device 24 are in the sleep mode, the overall power consumption of the image forming device 20 can be reduced.

More specifically, the power consumption amount e of the printing apparatus 21 after the power saving setting is changed can be obtained as follows. The power consumption e is a predicted value. Such calculation of the predicted value is also performed by the calculation unit 32.
Of the power consumption e as a predicted value of the printing device 21, the power consumption e1 in the sleep mode is
1W × (1954 seconds + 1740 seconds + 3600 seconds) / 3600 seconds = 2.03 Wh
become. The power consumption amount e2 in the warm-up mode is 2.22 Wh, which is the same as the power consumption amount c2 described above. The power consumption e3 in the print mode is 3000 Wh, which is the same as the power consumption c2 described above. The power consumption e4 in the ready mode is
30W × 60sec / 3600sec = 0.5Wh
become. Therefore, the power consumption amount e as a predicted value of the printing apparatus 21 when the power saving setting is changed is
e = e1 + e2 + e3 + e4 = 3004.75 Wh
become.

And also about UI apparatus 22, the image reading apparatus 23, and the control apparatus 24, the calculating part 32 calculates the power consumption as a predicted value by the same calculation. Then, the arithmetic unit 32 adds the power consumption amounts of all the devices to calculate the power consumption amount as a predicted value within a predetermined period of the image forming apparatus 20.
In this way, by obtaining the actual measurement value and the predicted value after changing the power saving setting and calculating the difference between them, it is possible to acquire the power consumption that is saved by the power saving setting.

FIG. 8 is a diagram illustrating an example displayed on the UI device 22 when the power saving setting is changed.
As shown in the figure, the display screen of the UI device 22 displays the amount of power consumption that is an actual measurement value within a predetermined period, as well as changes in power saving settings and consumption as predicted values after the power saving settings. Displays the electric energy with specific numerical values.
By performing such display, the user can grasp the power consumption as the predicted value. That is, the user grasps the setting that would have been able to reduce the power consumption based on the past usage of the image forming apparatus 20. For this reason, the user can change the setting by estimating future usage modes.

Next, a setting change of the UI device 22 will be described.
FIG. 9 is a diagram for explaining the power consumption when the UI device 22 is changed from the sleep mode to a setting that does not change from the sleep mode even when a print job occurs in the time chart of FIG. In addition, t of the figure shows time. FIG. 10 is a diagram for explaining the power consumption when the UI device 22 is changed from the sleep mode to a setting that does not transit even when a print job occurs when the log of FIG. 5 is generated.
For the UI device 22 in the sleep mode, it is possible to reduce the power consumption of the UI device 22 by changing the setting for transitioning to the ready mode when any job (print job in the present embodiment) occurs. is there.

As a specific example of the setting change, the UI device 22 in the sleep mode is configured not to transit to the ready mode until a copy job is generated. In other words, the UI device 22 in the sleep mode does not shift to the ready mode even when a print job occurs. The print job is one in which the terminal apparatus 10 issues a print instruction to the image forming apparatus 20 via the communication network NW, and there is no problem in executing the print job even if the UI apparatus 22 does not shift to the ready mode.
When the setting of the UI device 22 is changed in this way, as shown in FIG. 9, the UI device 22 waits until the copy job is generated after the print job is generated (in the example of this embodiment). The timing of transition to the ready mode can be delayed for 150 seconds.

If such a setting change is made, as shown in FIG. 10, in the UI device 22, the sleep mode time increases from 1954 seconds to 2104 seconds, and the ready mode time decreases from 1840 seconds to 1690 seconds. .
The details of the calculation will be described. The power consumption f for the UI device 22 can be obtained as an actual measurement value as follows. Note that such calculation is performed by the calculation unit 32.

Of the power consumption f for the UI device 22, the power consumption f1 in the sleep mode is:
0.1 W × (2104 seconds + 3600 seconds) / 3600 seconds = 0.16 Wh
It is. The power consumption f2 in the ready mode is
5W × 1690sec / 3600sec = 2.35Wh
It is. Therefore, the power consumption f of the UI device 22 is
f = f1 + f2 = 2.51Wh
It is. Since the power consumption d as an actual measurement value of the UI device 22 is 2.71 Wh, the user grasps that the power consumption of 0.2 Wh can be reduced by changing the setting described above. it can.

FIG. 11 is a diagram illustrating an example displayed on the UI device 22 when the setting of the UI device 22 is changed.
As shown in the figure, the display screen of the UI device 22 displays the power consumption, which is an actually measured value within a predetermined period, and the power consumption as the contents of the setting change and the predicted value after the setting change. Display quantity.

  In the present embodiment, the power consumption amount e when the power saving setting described above is changed can be calculated as the predicted value based on the power consumption amount c as the actual measurement value of the printing device 21, and the calculation result is as follows. It is displayed as shown in FIG. Further, based on the power consumption amount d as an actual measurement value of the UI device 22, the power consumption amount f when the setting of the UI device 22 is changed as described above can be calculated as a predicted value. The result is displayed as shown in FIG. Therefore, on the display screen for changing the power saving setting, it is possible to display the power consumption amount as the actual measurement value within the designated period and the power consumption amount as the predicted value when changed.

  More specifically, such a predicted value cannot be calculated in a configuration in which a log is generated for each job when a plurality of jobs that are to perform a concurrent operation occur. In the present embodiment, it is possible to calculate a predicted value by adopting a configuration in which a log is generated for each device. That is, according to the present embodiment, it is possible to increase the situation in which the power consumption amount can be calculated as a predicted value when performing power saving settings.

  To explain further, the case where the predicted value cannot be calculated in the configuration in which the log is generated for each job is considered in addition to the case of the concurrent operation described above. For example, when the print job occurs, the power consumption changes depending on whether the UI device 22 is switched to the ready mode or remains in the sleep mode. However, in the configuration in which the log is generated for each job, it is not possible to calculate the power consumption as a predicted value when the on / off setting of the UI device 22 is changed. In this embodiment, it is possible to cope with such a case.

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. It is a figure explaining an example of the electric power information table stored in the storage part of a control apparatus. 6 is a time chart for explaining a transition example of each mode of the printing apparatus, UI apparatus, image reading apparatus, and control apparatus. It is a figure explaining the log produced | generated by the log production | generation part of a control apparatus, and stored in a storage part. FIG. 5 is a diagram illustrating power consumption when changing a power saving time for transition from the ready mode to the sleep mode in the case of the time chart of FIG. 4. FIG. 6 is a diagram illustrating power consumption when changing a power saving time for transition from the ready mode to the sleep mode when the log of FIG. 5 is generated. It is a figure which shows an example displayed on UI apparatus when changing a power-saving setting. In the case of the time chart of FIG. 4, it is a diagram for explaining the power consumption when the UI device changes from a sleep mode to a setting that does not change even when a print job occurs. FIG. 6 is a diagram illustrating power consumption when the UI apparatus changes from a sleep mode to a setting that does not transition even when a print job occurs when the log of FIG. 5 is generated. It is a figure which shows an example displayed on UI apparatus when changing a setting.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Terminal device, 20 ... Image forming device, 21 ... Printing device, 22 ... UI device, 23 ... Image reading device, 24 ... Control device, 31 ... Log generation part, 32 ... Calculation part, 33 ... Communication control part, 34 , Storage unit, 41, printing device log generation unit, 42, UI device log generation unit, 43, image reading device log generation unit, 44, control device log generation unit, 51, 52, 53, 54, power Information table, 61, 62, 63, 64 ... log, NW ... communication network

Claims (8)

The first function has a configuration that realizes the first function, has a plurality of operation states including an operation state that consumes power and realizes the first function, and the power consumption is increased or decreased by transition of the plurality of operation states. 1 functional part;
The second function has a configuration that realizes the second function, has a plurality of operation states including an operation state that consumes power and realizes the second function, and the power consumption increases or decreases by the transition of the plurality of operation states. Two functional parts;
A first generation unit that generates history information indicating a history of transition to any of the plurality of operation states for the first functional unit;
A second generation unit that generates history information indicating a history of transition to any of the plurality of operation states for the second functional unit;
Obtaining power consumption information in the plurality of operating states of the first function unit and the history information generated by the first generation unit to calculate the power consumption amount of the first function unit , Obtaining power consumption information in the plurality of operating states of the second function unit and the history information generated by the second generation unit, and calculating power consumption of the second function unit An arithmetic unit to perform,
An image processing apparatus. A first operation instruction that is an instruction that causes the first function part and the second function part to operate in conjunction with each other, and an instruction that the first function part operates alone. An acquisition unit for acquiring a second operation instruction;
The calculation unit calculates a power consumption amount consumed by the first function unit operating in accordance with the first operation instruction and the second operation instruction, and the second function unit performs the first operation. The image processing apparatus according to claim 1, wherein the power consumption consumed by operating according to the instruction is calculated. A reception unit that accepts a change in a setting related to a timing of transition to any one of the plurality of operation states of the first functional unit and the second functional unit;
The image processing apparatus according to claim 1, wherein the calculation unit calculates a power consumption under the setting condition received by the reception unit as a predicted value using the history information. .   The image processing apparatus according to claim 3, further comprising: an output unit that outputs the power consumption amount under the setting condition together with the power consumption amount under the condition before the setting. First generation means for generating history information indicating a history of a transition to one of the plurality of operation states with respect to a first functional unit having a plurality of operation states having different power consumption amounts;
Second generation means for generating history information indicating a history of transition to which of the plurality of operation states for the second functional unit having a plurality of operation states having different power consumption amounts;
Obtaining power consumption information in the plurality of operating states of the first function unit and the history information generated by the first generation unit to calculate the power consumption amount of the first function unit , Obtaining power consumption information in the plurality of operating states of the second functional unit and the history information generated by the second generation unit, and calculating power consumption of the second functional unit Computing means for
Power management device including   The calculation means includes a first operation instruction that is an instruction that the first functional unit and the second functional unit operate in conjunction with each other, and the first functional unit operates independently. When the first function unit and the second function unit are operated by the second operation instruction that is an instruction, the first function unit performs the first operation instruction and the second operation instruction. 6. The power consumption consumed by operating according to claim 1, and the power consumption consumed by the second functional unit operating according to the first operation instruction is calculated. Power management device.   When the calculation unit changes the setting related to the timing of transition to any one of the plurality of operation states of the first function unit and the second function unit, the power consumption under the condition of the setting is calculated. The power management apparatus according to claim 5, wherein the history information is used to calculate a predicted value.   The power management apparatus according to claim 7, further comprising an output unit that outputs the power consumption amount under the setting condition together with the power consumption amount under the condition before the setting.

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