JP2004259207A - Device with power saving mode function and communication network system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem wherein whole total electric power cannot be controlled when an electric power control system circuit cannot communicate by any trouble in an electric power control system to control total electric power of power supply for devices connected with the same power supply. <P>SOLUTION: Communications are performed to each of devices connected with the same power supply for every constant time, and disconnection of communications is detected by no response of communication. A system manager is notified of the fact, and each of the devices is allowed to display the communication disconnection. At the same time, by prohibiting changing operation mode, the system allows the manager and users to restore the trouble without breaker disconnection. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to coping with communication failure of a power saving mode control device, and more particularly, to a plurality of devices connected to the same power supply and having a power saving mode function. The present invention relates to a device with a power saving mode function for controlling switching of an operation mode of each device so that power consumption does not exceed the capacity of a power supply, and a communication network system connecting the devices with a power saving mode.
2. Description of the Related Art In recent years, various devices such as a personal computer (hereinafter, referred to as a PC), a facsimile, a copying machine, and the like are individually provided with a power saving function. It is designed to transition from power saving mode to power saving mode.
However, the power saving function of various conventional devices is required to be improved in that when a plurality of devices are connected to one power supply, the device does not have a function of controlling the total power consumption. I have.
That is, even if a plurality of devices are connected to one and the same power supply, each of the devices only operates independently, so that the plurality of devices operate simultaneously. As a result, there is a problem that it is not possible to avoid the trouble that the capacity of the power supply is exceeded and the breaker drops. In particular, when work is performed on a PC or the like, the work results up to that point are lost, and means for effectively preventing such troubles are strongly demanded.
Therefore, it is possible to manage the total power consumption of at least two or more devices connected to the same power supply, and to control the power consumption of each device so that the total power consumption does not exceed the capacity of the power supply. Various power saving mode control devices have been proposed (for example, see Patent Document 1).
[Patent Document 1]
[Patent Document 1] Japanese Patent Application Laid-Open No. 2001-313337 [Problem to be Solved by the Invention] However, in the above-mentioned conventional technology, even if one of the devices connected to the same power supply cannot communicate due to a communication device disconnection or some other reason. If the server device falls into a situation, the server device determines that the device that cannot communicate does not use the power supply, and cannot obtain accurate data of the total power consumption as a whole, causing a power supply power overflow and consequently a breaker. There is a risk of causing disconnection.
In order to solve the above-mentioned problems, the inventions according to claims 1 and 2 obtain operation mode information from another device connected to the same power supply and obtain the operation mode information. A communication unit for providing the operation mode information of the own device to other devices; a storage unit for storing the operation modes and power supply capacities of all devices connected to the same power supply; and an operation mode stored in the storage unit Main control means for switching the operation mode of each device so that the total power consumption of a plurality of devices connected to the same power supply does not exceed the capacity of the power supply based on the information, and when a communication failure is detected by the detection unit, There is provided a device with a power saving mode function, comprising a display unit for displaying a communication failure.
That is, the device with a power saving mode function of the present invention includes a storage device and a main control device, and a plurality of devices connected to the same power supply have priorities set. The priority order, the power consumption for each operation mode (normal use mode and power saving mode) of each device, the current operation mode of each device, and information on the capacity of the power supply are stored in a storage device. The main controller controls switching of the operation modes of the devices so that the total power consumption of the plurality of devices connected to the same power supply does not exceed the capacity of the power supply.
Further, in such a device with a power saving mode function, the operation mode switching information of the device can always be fetched and updated in the storage device by transmission or reception via a telecommunication line. Therefore, the main controller described above can always control the switching of the operation mode of the devices so that the total power consumption of the plurality of devices does not exceed the capacity of the power supply. When the communication line is interrupted, the disconnection detecting means detects that the line has been interrupted and displays it on the device display unit to notify the user of the device, thereby enabling reliable control.
According to a third aspect of the present invention, there is provided a communication device which obtains operation mode information from another device connected to the same power supply and provides the other device with its own operation mode information. Storage means for storing the operation modes and power supply capacities of all devices connected to the same power supply; and total consumption of a plurality of devices connected to the same power supply based on the operation mode information stored in the storage means. Detection for detecting communication failure of communication means between devices connected to the same power supply in a network connecting devices with a power saving mode having a main control means for switching operation modes of respective devices so that power does not exceed the capacity of the power supply And a notifying means for notifying the system administrator of the communication failure when the communication failure is detected by the detection means. Beam is provided.
In other words, by using such a network system, the administrator of the system can constantly monitor the state of the telecommunication line, and if an abnormality occurs, the administrator can take repairs and take some measures, thereby improving reliability. Control can be realized.
DESCRIPTION OF THE PREFERRED EMBODIMENTS The principle of the present invention will be described below with reference to the embodiments shown in the accompanying drawings.
FIG. 1 shows an example of switching control of an operation mode of a device using the power saving mode control device of the present invention. In this example, three devices (a first device 1, a second device 2, and a third device 3) are connected to a power supply having a maximum capacity of 15A. Control devices 11, 12, and 13 are connected to each device, respectively, and these control devices are connected to each other by a network.
First, priorities are set for the devices 1 to 3. In the example of FIG. 1, the first device has a priority of 1, the second device 2 has a priority of 2, and the third device 3 has a priority. Are set to 3. The priority may be fixedly designated by the user, or may be changed according to the operation status of each device. For example, in the case of a device such as a facsimile, the highest priority can be set in the operating state, and the lowest priority can be set in the non-operating state.
In addition, each of the devices 1 to 3 has a power saving mode function, and is switched between a power saving mode (a plurality of modes may be set according to a power saving amount and performance) and a normal mode. ing. For example, when there is no access from the user for a certain period, the mode automatically shifts to the power saving mode.
Further, as shown in FIG. 1, for example, the operation modes and power consumption of each of the devices 1 to 3 are as follows.
Device 1 (Priority 1):
Normal mode 6A (maximum power consumption 6A)
Power saving mode 0.4A
Device 2 (Priority 2):
Normal mode 6A (Maximum power consumption 8A)
Power saving A mode 0.5A
Power saving B mode 2A
Device 3 (Priority 3):
Normal mode 6A (Maximum power consumption 8A)
Power saving mode 0.1A
The above information, that is, the information regarding the maximum capacity of the power supply (15 A), the operation mode of each of the devices 1 to 3 and the power consumption in the operation mode is stored in the storage device of the control device connected to each device. .
When the above devices are connected to the same power supply, when all of the devices 1 to 3 operate in the normal mode, the total power consumption is at least 18 A, which exceeds the maximum power supply capacity of 15 A. .
Therefore, it is necessary to control the switching of the operation mode of each of the devices 1 to 3 by the control devices 11 to 13 of the present invention.
That is, the above-described control devices 11 to 13 shift the mode of each device from the lower priority order to the power saving mode. For example, in the example of FIG. 1, the control device 13 shifts the third priority device 3 to the power saving mode (power consumption: 0.1 A). By such control, the total power consumption of the devices 1 to 3 can be adjusted to 12.1 A or less, and the trouble that the total power consumption exceeds the maximum capacity (15 A) of the power supply and the breaker falls is effectively prevented. It becomes possible.
Further, the change of the operation mode of the device 3 by the control device 13 is stored in the control device 13 and transmitted to other control devices 11 and 12 through the network, and the information is transmitted to the control devices 11 and 12. Is also saved. That is, the current operation mode of each of the devices 1 to 3 is always stored in each of the control devices 11 to 13, and the switching of the operation mode of each device is performed based on this information.
FIG. 2 shows a structure of each of the control devices 11 to 13 for performing the above-described operation mode switching control.
Reference numeral 20 denotes a control device attached to each device main body 30 (corresponding to the devices 1 to 3 in FIG. 1, for example, a PC, a facsimile, a copying machine, or the like). The control device 20 includes a main control device 21 and a storage device 22, and further includes a transceiver (information transmitting / receiving device) 23 connected to a network. That is, the control devices 20 (corresponding to the above-described control devices 11 to 13) provided in each device are connected to each other via the network.
As shown in FIG. 2, a server device 100 including a storage device 22, a main control device 21, and a device main body 30 is shown. The main control device 21 issues a transmission command of the current operation mode (power consumption in the mode, if necessary) to the device main body 30, furthermore, whether or not the operation mode can be changed by a user operation, and an operation mode change command. Is issued.
In addition, the device main body 30 sends to the main control device 21 the current operation mode (and, if necessary, power consumption in the operation mode), an inquiry about an operation mode change by a user operation, and whether or not the operation mode can be changed. Emitted to the control device 21.
Further, main controller 21 transmits predetermined information over a network via transceiver 23 and receives predetermined information from the network. That is, from the main controller 21, the current operation mode of the device main body 30 (and the power consumption in the operation mode as necessary) and the priority of the device main body 30 are connected to other devices via the transceiver 23 and the network. That are periodically sent to a control device that is connected to the same power supply and that are provided to other devices connected to the same power supply (hereinafter, simply referred to as other control devices). ) From the network and the transceiver 23 periodically.
The storage device 22 stores information on other devices connected to the same power supply, that is, the operation mode of the device main body 30, the power consumption for each operation mode, the priority, and the current operation mode, that is, the operation mode of the other device. It stores the power consumption for each operation mode and the current operation mode, and the main controller 21 controls the change of the operation mode of the device main body 30 based on the information.
That is, the device information transmitted from the device main body 30 and another control device provided in another device to the main control device 21 is stored in the storage device 22. In this case, if the basic information (operation mode, power consumption for each operation mode, priority order) of all devices connected to the same power supply is stored in the storage device 22 in advance, the device body 30 and other control devices can be stored. From among the device information to be transmitted to the main control device 21, the transmission of the information on the power consumption and the priority order may be omitted. That is, information on only the current operation mode of each device can be transmitted to the main control device 21 and the information stored in the storage device 22 can be updated. For example, when the priorities are changed for each operation mode of each device, transmission and reception of information on such priorities can be omitted if all combinations of the priorities for each operation mode are stored in advance. You can do it.
Based on the information on all devices stored in the storage device 22 described above, control of the operation mode of the device body so that the total power consumption of a plurality of devices connected to the same power supply does not exceed the capacity of the power supply. In order to perform the following, the server device 100 having the main control device 21 has the following functions.
That is, the main control device 21 acquires a cyclic mode change permission request right in response to an inquiry about an operation mode change issued from the device main body 30 due to a user accessing the device main body 30 or the like. A mode change permission request is issued based on the mode change permission request right, a mode change permission / prohibition is determined, and a mode change request is transmitted according to the result to another control provided to another device through the transceiver 23 and the network. It issues to the device and receives a mode change request response from another control device. The switching of the operation mode of the device main body 30 is controlled according to such mode change availability and the mode change request response. Therefore, naturally, the main controller 21 also has a function of receiving a mode change request from another controller and issuing a mode change request response to the other controller.
The flow of the operation mode switching control by the main controller 21 is shown in the flowcharts of FIGS.
First, the flow of control by the main control device 21 when the main control device 21 receives an inquiry about an operation mode change from a user accessing the device main body 30 or the like is as shown in FIG.
Main controller 21 issues a mode change permission request to each of the other devices, and determines whether or not the mode change is possible.
Whether the mode can be changed is determined based on the changed operation mode of the device body 30, power consumption in the operation mode, current operation mode of other devices, and priority of each device (these information is stored in the storage device 22). ), So that the total power consumption does not exceed the capacity of the power supply.
If the operation mode of the device main body 30 can be unconditionally changed according to the mode change availability, the change of the operation mode is notified to the device main body 30 and the operation mode of the device main body 30 is changed (for example, from the power saving mode to the normal (Switching to the use mode).
Further, after the mode is changed, before the mode change permission right is released, the state of the own device body 30 after the change is transmitted to each device.
If the operation mode cannot be changed even when the priorities of the devices are considered, the operation mode cannot be changed and the operation mode of the device body 30 is not changed.
Further, when the operation mode can be changed conditionally, that is, when the operation mode of the device main body 30 can be changed by changing the operation mode of another device based on the priority order, the operation mode is changed. A mode change request is issued to a control device provided in another device to be provided. In this case, when the power saving mode of another device is set in a plurality of stages, the mode change request includes the changed operation mode.
The main control device 21 receives a response to the mode change request from the control device of the other device. If the response indicates that the mode can be changed, the main control device 21 informs the device body 30 of the mode change permission, The operation mode is changed, and if this response is not possible, the mode change disable is transmitted to the device main body 30 and the operation mode of the device main body 30 is not changed.
When the operation mode of the device main body 30 is changed according to whether the mode can be changed, the changed operation mode is transmitted to the control devices of all other devices.
On the other hand, when the main control device 21 receives a mode change request from the control device of another device, control is performed according to the flowchart of FIG.
That is, when the main control device 21 receives the mode change request, it issues a mode change command to the device body 30.
Next, a response to the mode change command from the device main body 30, that is, whether or not the mode change is possible is received from the device main body 30, and a mode change request response is sent to the control device of another device that has issued the mode change request according to the response. . In this case, when the operation mode of the device main body 30 is changed according to the mode change request, the operation mode after the change of the device main body 30 (power consumption in the mode as necessary) is included in the mode change request response. Further, a mode change instruction to the device main body 30 by the mode change request may be forcibly issued.
When an operation mode change is inquired from the user by accessing the device main body 30 or another device, control or a mode change request response is performed by the main controller as described above. The operation switching control of each device is performed so that the total power consumption of the plurality of connected devices does not exceed the capacity of the power supply.
For example, when the device main body 30 is not accessed by a user and a predetermined time has elapsed, the normal operation mode of the device main body 30 is automatically changed from the normal use mode to the power saving mode without performing the switching control of the operation mode by the control device described above. Switching to is performed. In this case, the operation mode after the change (that is, the current operation mode) is transmitted from the device main body 30 to the main controller 21, and this information is transmitted to the storage device 22 to update the data. The data is transmitted to the control device of another device through the transceiver 23 and the network, and the data in the storage device of the other control device is also updated.
The control of switching the operation mode of each device by attaching the control device of the present invention to each of a plurality of devices connected to the same power supply has been described above.
However, according to the above-mentioned principle, if the telecommunication line constituting the network is disconnected or some communication becomes impossible, the total power consumption as a whole falls into an uncontrollable state.
A detection unit for detecting a communication failure is provided in a main control unit of each device. As a detection method, each device periodically transmits and receives the device operation state via the transceiver 23, and monitors each operation state.
Therefore, when a communication failure occurs, a response is not returned on a communication disabled line even if a confirmation request is sent. Therefore, if there is no response for a certain period of time, the detecting means in the main control unit recognizes that the communication is not possible, and informs the device main body of the communication impossible information (in which line the communication disabled state occurred, or to which device the communication was disabled). Is sent, the current operation mode of the device main body cannot be changed, and a device that cannot communicate is displayed on a main body display (not shown). In addition, a network administrator is stored in the storage device of each device, and the main controller of the communicable device arbitrarily selects one main server from among the communicable servers, and selects the main server from the main server. May be notified by e-mail or the like.
The above example will be specifically described with reference to FIGS.
FIG. 5 shows a situation in which an administrator PC is added to the situation shown in FIG. 1 (in the figure, the administrator PC 50 is connected to a different power supply, but the same power supply may be used).
The main control unit 21 in the control unit 20 of each of the devices 1 to 3 periodically communicates the operation mode status via each transceiver 23.
If a communication failure occurs at a point indicated by 200 in FIG. 5 due to a disconnection or the like, the device 1 is disconnected from the network. Then, an accurate power supply capacity control value cannot be obtained on the network. Then, the main control units 21 of the devices 1 to 3 recognize that the operation mode status of the device 1 cannot be grasped, and prohibit the subsequent operation mode change request acceptance.
After that, the main control unit 21 displays on the display unit of the device 1 on the device main body 30 such as "the device has been disconnected from the network" and the like, and the devices 2 and 3 have "the device 1 has been disconnected from the network". Is displayed to notify the user who intends to use the device. By doing so, the user can repair the network and repair the telecommunications line without dropping the breaker.
In addition, while performing the above display, a network administrator is determined, administrator information (e-mail address, IP address, etc.) is stored in the storage device 22 of each device, and a device (device 2) capable of communication is stored. (3) In the main control unit, a main server is arbitrarily selected from among the servers that can communicate with each other (in FIG. 5, the device 2 is a main server). To the administrator PC 50 (e-mail, PC transmission, etc.).
This allows the network to be quickly restored before the user tries to use the device.
Even while such a communication failure occurs, the operation mode is periodically checked in parallel, so that as soon as the network is restored, the detecting means detects the restoration, and returns the display unit to the normal display mode. Return the prohibited operation mode change reception to the permitted state.
The procedure of the above-mentioned restoration means is shown in the flowchart of FIG.
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, restoration of a network can be implement | achieved quickly without dropping a breaker in the network system which connected the some apparatus which has the power saving mode function to the same power supply.
Also, by not dropping the breaker, when the device described in the present embodiment is working on a work workstation such as a PC, there is no need to worry about losing the work up to that time.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of switching control of an operation mode of a device using a power saving mode control device.
FIG. 2 is a diagram showing a structure of a power saving mode control device.
FIG. 3 is a flowchart illustrating a flow of control performed by a main control device when a request to change an operation mode of a device is received through user access.
FIG. 4 is a flowchart showing a flow of control by a main control device when a mode change request is received.
FIG. 5 is a diagram showing an example of a network using a power saving mode control device.
FIG. 6 is a flowchart showing a network recovery operation procedure using the power saving mode control device.
[Explanation of symbols]
20: power saving mode control device 21 of the present invention: main control device 22: storage device 23: transceiver 50: administrator PC
100: server equipment

Claims (4)

Communication means for obtaining operation mode information from another device connected to the same power supply and providing the operation mode information of the own device to the other device, and the operation modes of all the devices connected to the same power supply; Storage means for storing the capacity of the power supply, and operation modes of the respective devices based on the operation mode information stored in the storage means so that the total power consumption of a plurality of devices connected to the same power supply does not exceed the capacity of the power supply. A device with a power saving mode function, comprising: a main control unit for switching the communication mode; and a display unit for displaying the communication failure when the communication failure is detected by the detection unit. The device with a power saving mode according to claim 1, wherein the operation mode information is at least a power consumption, a priority, and a current operation mode of each device in each operation mode. Communication means for obtaining operation mode information from another device connected to the same power supply and providing the operation mode information of the own device to the other device, and the operation modes of all the devices connected to the same power supply; Storage means for storing the capacity of the power supply, and operation modes of the respective devices based on the operation mode information stored in the storage means so that the total power consumption of a plurality of devices connected to the same power supply does not exceed the capacity of the power supply. In a network connecting devices with a power saving mode having a main control unit for switching, a detection unit for detecting a communication failure of a communication unit between devices connected to the same power supply, and when a communication failure is detected by the detection unit, A communication network system comprising a notification unit for notifying a system administrator of a communication failure. 4. The communication network system according to claim 3, wherein the operation mode information is at least a power consumption, a priority order, and a current operation mode for each operation mode of each device.

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