JP2001306195A - Power saving mode control unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power saving mode control unit that manages total power consumption of plural machines and that controls power consumption of each machine not to exceed the capacity of corresponding power source. SOLUTION: The power saving mode control unit that controls switching of operation mode of machines equipped with the power saving mode function is composed of following units: a storage device that stores the information of the power consumption of each operation mode, the priority, the current operation mode, and the capacity of power source of each machine, and a main control unit connected to the network that receives the operation mode information of each machine from the network, stores it to the storage device and controls the total power consumption not to exceed the capacity of power source by change of operation mode.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power saving mode control apparatus, and more particularly, to a power saving mode control apparatus connected to a plurality of machines having a power saving mode function connected to the same power supply. The present invention relates to a power saving mode control device that controls switching of an operation mode of each machine so as not to exceed a capacity.

[0002]

2. Description of the Related Art In recent years, various machines, such as personal computers, facsimile machines, and copiers, are individually provided with a power saving function, and are designed to shift from a normal use mode to a power saving mode after a certain period of time. ing.

[0003]

However, the conventional power saving function of various machines does not have a function of controlling the total power consumption when a plurality of machines are connected to one power supply. In this respect, improvement is required. In other words, even if multiple machines are connected to one power supply, each machine only operates independently, so that these multiple machines operate simultaneously. Therefore, there is a problem that it is impossible to avoid a trouble that the capacity of the power supply is exceeded and the breaker is dropped. In particular, when work is performed on a personal computer or the like, the work up to that point is lost. Therefore, means for effectively preventing such troubles are strongly demanded.

Accordingly, it is an object of the present invention to manage the total power consumption of a plurality of machines connected to the same power supply, and to control the power consumption of each machine so that the total power consumption does not exceed the capacity of the power supply. It is an object of the present invention to provide a power saving mode control device capable of performing the above.

[0005]

According to the present invention, there is provided a power saving mode control device for controlling switching of an operation mode of a machine having a power saving mode function, the operation of a plurality of machines connected to the same power supply. Storage device for storing power consumption for each mode, priority of each machine, current operation mode of each machine and the capacity of the power supply, and operation mode information of a machine connected to a network and to be stored in the storage device Receiving from the network, and storing the operation mode information in the storage device, based on the information stored in the storage device, so that the total power consumption of the plurality of machines does not exceed the capacity of the power supply, A power control mode control device comprising: a main control device that performs switching control of a machine operation mode. According to the present invention, a plurality of machines having a power saving mode function are connected to the same power supply, and a power saving mode control device including a storage device and a main control device is attached to each of the machines. The control devices are connected to each other via a network, and the power consumption of each machine in each operation mode, the priority of each machine, and the capacity of the power supply are stored in the storage device of each power saving mode control device. The operation mode information is stored in the storage devices of all the power saving mode control devices by transmission through the main control device of the power saving mode control device attached to each machine, and the information stored in the storage devices Based on the above, the main control unit of each power saving mode control device controls each machine so that the total power consumption of the plurality of machines does not exceed the capacity of the power supply. The power saving mode control system is provided which is characterized in that the switching control of the work mode. According to the present invention, a plurality of machines having a power saving mode function are connected to the same power supply, and a power saving mode control device including a storage device and a main control device is provided.
Connected to each machine via a network, the power consumption for each operation mode of all machines, the priority of each machine, and the capacity of the power supply, are stored in the storage device, the current operation mode information of each machine, The main control device is stored in the storage device via the main control device via a network, and based on the information stored in the storage device, the total power consumption of the plurality of machines does not exceed the capacity of a power supply. Performs a switching control of the operation mode of each machine, thereby providing a power saving mode control system.

That is, the power saving mode control device of the present invention includes a storage device and a main control device, and sets priorities for a plurality of machines connected to the same power supply. The priority order, the power consumption of each machine in the operation mode (normal use mode and power saving mode), the current operation mode of each machine, and the capacity of the power supply are stored in a storage device, and based on these information, The main controller controls switching of the operation modes of the machines so that the total power consumption of the plurality of machines connected to the same power supply does not exceed the capacity of the power supply.
In such a control device, the switching information of the operation mode of the machine can always be fetched and updated in the storage device by transmission or reception via a network. Therefore, the main control device described above can always control the switching of the operation mode of the machine so that the total power consumption of the plurality of machines does not exceed the capacity of the power supply.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to specific examples shown in the accompanying drawings. In FIG. 1, which shows an example of switching control of the operation mode of a machine using the power saving mode control device of the present invention, in this example, a power supply having a maximum capacity of 15A is connected to three machines (first machine 1, A second machine and a third machine 3) are connected. The control devices 11, 12 and 13 of the present invention are connected to the respective machines, and these control devices are connected to each other by a network.

First, priorities are set for the above-mentioned machines 1 to 3. In the example shown in FIG. 1, the first machine has a priority of 1, the second machine 2 has a priority of 2, and the third machine has a third priority. Of the machine 3 is set to 3. The priority may be fixedly designated by the user, or may be changed according to the operation status of each machine. For example, in the case of a machine 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. Further, each of the machines 1 to 3 has a power saving mode function, and is switched between a power saving mode (a plurality of types of modes may be set depending on a power saving amount and performance) and a normal mode. ing. For example, if there is no access from the user for a certain period, the mode automatically shifts to the power saving mode. Further, as is clear from FIG. 1, the operation modes and power consumption of each of the machines 1 to 3 are as follows. Machine 1 (Priority 1): Normal mode 6A (Maximum power consumption 6A) Power saving mode 0.4A Machine 2 (Priority 2): Normal mode 6A (Maximum power consumption 8A) Power saving A mode 0.5A Power saving B mode 2A Machine 3 (priority 3): normal mode 6A (maximum power consumption 8A) power saving mode 0.1A or more information, ie, maximum capacity of power supply (15A), operation mode of each machine 1 to 3, and power consumption in operation mode Is stored in the storage device of the control device of the present invention connected to each machine.

As is apparent from the above information, the machine 1
3 operate in the normal mode, the total power consumption is at least 18 A, and the maximum capacity of the power source is 1
It exceeds 5A. Therefore, the control devices 11 to 11 of the present invention
According to FIG. 13, it is necessary to control the switching of the operation mode of each of the machines 1 to 3.

That is, the above-mentioned control devices 11 to 13 shift to the power saving mode from the one with the lowest priority of each machine. For example, in the example of FIG. 1, the control device 13 shifts the machine 3 having the priority 3 to the power saving mode (power consumption: 0.1 A). With such control, the total power consumption of the machines 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. The control device 13
The change of the operation mode of the machine 3 due to the above is stored in this control device 13 and transmitted to other control devices 11 and 12 via the network, and the information is also stored in these control devices 11 and 12. That is, the current operation mode of each of the machines 1 to 3 is always the control device 11 to
13 based on this information, the switching of the operation mode of each machine is controlled.

In FIG. 2 showing the structure of each of the control devices 11 to 13 for controlling the switching of the operation mode described above, the control device indicated by 20 as a whole includes a main control device 21 and a storage device 22. And a transceiver (information transmitting / receiving device) 23 connected to the network. That is, the control device 20 (each of the above-described control devices 1
(Corresponding to 1 to 13) are connected to each other. In FIG. 2, reference numeral 30 denotes a machine main body to which the control device 20 is connected (corresponding to the machines 1 to 3 in FIG. 1,
For example, a personal computer, a facsimile, a copying machine, etc.) are shown.

As shown in FIG. 2, main controller 21
Issues a command to the machine body 30 to transmit the current operation mode (power consumption in this mode, if necessary),
Further, it is configured to issue an instruction to change the operation mode by a user operation and to change the operation mode. Further, the machine main body 30 inquires of the main control device 21 about the current operation mode (and, if necessary, power consumption in the operation mode), an operation mode change by a user operation,
It issues to the main controller 21 whether or not the operation mode can be changed.

Further, main controller 21 includes transceiver 2
3 for transmitting predetermined information on the network and receiving predetermined information from the network. That is, from the main controller 21, the current operation mode of the machine main body 30 (and power consumption in the operation mode if necessary) and the priority of the machine main body 30 are connected to other machines through the transceiver 23 and the network. This machine information is periodically issued to a control device that is provided, and such machine information is transmitted to all control devices (hereinafter simply referred to as other control devices) provided on other machines connected to the same power supply. ) From the network and the transceiver 23 periodically.

The storage device 22 stores information on other machines connected to the same power supply, that is, the operation modes of the other machines, together with the operation modes of the machine body 30, the power consumption for each operation mode, the priority order, and the current operation mode. The mode, the power consumption for each operation mode, and the current operation mode are stored. Based on the information, the main controller 21 controls the operation mode of the machine body 30 to change. That is, the machine information transmitted to the main control device 21 from the machine main body 30 and another control device provided in another machine is stored in the storage device 22. In this case, basic information of all machines connected to the same power supply (operation mode, power consumption for each operation mode,
If the priority (priority) is stored in the storage device 22 in advance, transmission of information on power consumption and priority among the machine information transmitted from the machine main body 30 or another control device to the main control device 21 may be omitted. it can. That is, information on only the current operation mode of each machine 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 priority is changed for each operation mode of each machine, transmission and reception of information on such a priority can be omitted if all combinations of the priority for each operation mode are stored in advance. You can do it.

The operation of the main body of the machine is performed based on the information on all the machines stored in the storage device 22 so that the total power consumption of a plurality of machines connected to the same power supply does not exceed the capacity of the power supply. In order to control the mode, main controller 21 has the following functions.

That is, the main control unit 21 receives the user's access to the machine main body 30 or the like, and
In response to an operation mode change inquiry issued from 0, a request for mode change permission permission like a cyclic token is acquired. 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 to another control provided to another machine through the transceiver 23 and the network according to the result. It issues to the device and receives a mode change request response from another control device. The switching of the operation mode of the machine body 30 is controlled in accordance with the mode change availability and the mode change request response. Therefore, naturally, the main control device 21 also has a function of receiving a mode change request from another control device and issuing a mode change request response to the other control device. 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 machine main body 30 is as shown in FIG. That is, main controller 2
1 acquires a mode change permission request right, issues a mode change permission request, and determines whether or not the mode change is possible. Whether the mode can be changed is determined based on the operation mode of the machine body 30 after the change, the power consumption in the operation mode, the current operation mode of another machine, and the priority of each machine (the 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 machine main body 30 can be changed unconditionally according to the mode change availability, the change of the operation mode is notified to the machine main body 30 and the operation mode of the machine main body 30 is changed (for example, power saving). Mode to normal use mode). Further, after the mode is changed, before the mode change permission right is released, the state of the own machine 30 after the change is transmitted to each machine.

If the operation mode cannot be changed even in consideration of the priority of each machine, the machine body 3
0 is notified that the operation mode cannot be changed, and the operation mode of the machine body 30 is not changed.

Further, when the operation mode can be changed conditionally, that is, when the operation mode of another machine can be changed based on the priority order, the operation mode of the machine body 30 can be changed. A mode change request is issued to a control device provided in another machine whose mode is to be changed. In this case, when the power saving mode of another machine is set to a plurality of stages, the mode change request includes the changed operation mode. Main controller 21
Receives the response to the mode change request from the control device of the other machine, and if the response is acceptable, notifies the machine body 30 of the mode change permission, and changes the operation mode of the machine body 30. If the response is not possible, the mode change is not notified to the machine body 30,
The operation mode of the machine body 30 is not changed.

After completion of the mode change permission / prohibition as described above, main controller 21 releases the mode change permission request right. Also, depending on whether the mode can be changed or not, the machine body 3
When the operation mode of 0 is changed, the changed operation mode is transmitted to the control devices of all other machines.

On the other hand, when the main control device 21 receives a mode change request from a control device of another machine, control is performed according to the flowchart of FIG. That is, when the main control device 21 receives the mode change request, the machine main unit 3
Issue a mode change command to 0. Next, the machine body 3
A response to the mode change command from 0, that is, whether or not the mode can be changed is received from the machine body 30, and a mode change request response is sent to the control device of another machine that has issued the mode change request in accordance with this response. In this case, when the operation mode of the machine main body 30 is changed according to the mode change request, the operation mode after the change of the machine main body 30 (power consumption in the mode if necessary) is included in the mode change request response. In addition, a mode change command to the machine main body 30 by a mode change request can be compulsory.

When there is an inquiry from the user to change the operation mode by accessing the machine main body 30 or another machine, the control or mode change request response from the main controller is made as described above, thereby The operation switching control of each machine is performed so that the total power consumption of the plurality of machines connected to the power supply does not exceed the capacity of the power supply. For example, when the user does not access the machine main body 30 and a certain period of time has passed, the machine main body 30 is automatically switched from the normal use mode to the power saving mode without performing the operation mode switching control by the control device described above. The switch to is performed. In this case, the changed operation mode (that is, the current operation mode) is transmitted from the machine main body 30 to the main control device 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 machine through the transceiver 23 and the network, and the data of the storage device of the other control device is also updated.

In the examples shown in FIGS. 1 to 4 described above, the control device of the present invention is attached to each of a plurality of machines connected to the same power supply, and switching control of the operation mode of each machine is performed. Of course, it is also possible to perform the operation switching control of each machine using only the control devices. Such an example is shown in FIG.

That is, in FIG. 5, a plurality of machines 1 to 3 having a power saving mode function are connected to the same power supply, and these machines 1 to 3 are connected to the power saving mode of the present invention via a network. The control device 40 is connected. The control device 40 has basically the same structure as that shown in FIG.
2 and a transceiver 43.

That is, in the storage device 42, each machine 1 to
3 basic information (operation mode, power saving and priority for each operation mode) is stored, and
The three current operation modes are all transmitted to and stored in the storage device 42 through the main controller 41 via the network and the transceiver 43. The main controller 41 controls the operation modes of all the machines 1 to 3 based on the information stored in the storage device 42.

The control of the operation mode by the main control device 41 is basically the same as that of the main control device 21 shown in FIG. 2 described above. , The main controller 21 is slightly different. For example, the main controller 41 does not transmit information on each of the machines 1 to 3 over the network, but only receives information from each of the machines 1 to 3. The permission request right is unnecessary, and there is no mode change request or mode change request response. That is, in response to a mode change inquiry from each of the machines 1 to 3 received through the network, it is determined whether or not the mode can be changed. If the mode can be changed based on the priority order, other machines can be changed through the network. A mode change command is issued, and in response to the response, the mode change command is similarly sent to the machine for which the mode change has been inquired through the network. By such operation mode switching control, 1
Even when the plurality of power saving mode control devices are used, the total power consumption of each of the machines 1 to 3 can be prevented from exceeding the capacity of the power supply.

[0028]

According to the present invention, when a plurality of machines having a power saving mode function are connected to the same power supply, the total power consumption of the plurality of machines does not exceed the capacity of the power supply.
It is possible to control the switching of the operation mode of each machine.

[Brief description of the drawings]

FIG. 1 is a diagram showing an example of switching control of a machine operation mode using a power saving mode control device of the present invention.

FIG. 2 is a diagram showing a structure of a power saving mode control device of the present invention.

FIG. 3 is a flowchart showing a flow of control performed by a main control device when a request for changing the operation mode of a machine is received by user access.

FIG. 4 is a flowchart showing a flow of control performed by a main controller when a mode change request is received.

FIG. 5 is a diagram showing another example of control for switching operation modes of a machine using the power saving mode control device of the present invention.

[Explanation of symbols]

 20, 40: power saving mode control device of the present invention 21, 41: main control device 22, 42: storage device 23, 43: transceiver

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Fumio Aizawa, 1-2-28 Tamazo, Chuo-ku, Osaka City Inside Kyocera Mita Corporation (72) Inventor Shinichi Hashimoto 1-2-28, Tamazo, Chuo-ku, Osaka City Kyocera Mita F term (reference) in corporation 5B011 DA01 DB27 DC06 EA03 EA10 FF01 LL11

Claims (4)

[Claims] 1. A power saving mode control device for controlling switching of an operation mode of a machine having a power saving mode function, comprising: a plurality of machines connected to the same power supply; A storage device for storing the rank, the current operation mode of each machine and the capacity of the power supply, and operation mode information of the machine to be stored in the storage device, which is connected to the network and received from the network, A main unit that stores information in the storage device and controls switching of the operation mode of the machine based on the information stored in the storage device so that the total power consumption of the plurality of machines does not exceed the capacity of a power supply. A power-saving mode control device, comprising: a control device. 2. The power saving mode control device according to claim 1, wherein the main control device transmits operation mode information of the machine over a network. 3. A plurality of machines having a power saving mode function are connected to the same power supply, and a power saving mode control device including a storage device and a main control device is attached to each of the machines. Are connected to each other via a network, and the power consumption of each machine in each operation mode, the priority of each machine, and the capacity of the power supply are stored in the storage device of each power saving mode control device, and the current operation of each machine is performed. By transmitting the mode information through the main control device of the power saving mode control device attached to each machine, the information is stored in the storage devices of all the power saving mode control devices, and based on the information stored in the storage device. Therefore, the total power consumption of the plurality of machines does not exceed the capacity of the power supply,
A power-saving mode control system, wherein a main control device of each power-saving mode control device controls switching of an operation mode of each machine. 4. A plurality of machines having a power saving mode function are connected to the same power supply, and a power saving mode control device including a storage device and a main control device is connected to each machine via a network. The power consumption for each operation mode, the priority of each machine and the capacity of the power supply are stored in the storage device, and the current operation mode information of each machine is stored in the storage device via the main control device via a network. Based on the information stored in the storage device, so that the total power consumption of the plurality of machines does not exceed the capacity of the power supply,
A power saving mode control system, wherein the main controller controls switching of the operation mode of each machine.