JP2004259030A - Power supply control device, power supply control system, and power supply control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power supply control device capable of performing power supply control suitable to each of a plurality of information processors. <P>SOLUTION: In this power supply control device 100, an information acquisition part 110 acquires device identification information for designating each information processor to be controlled and operation identification information for requesting a switching operation of power on or power off of power supply to the designated information processor through a network. A switching control part 120 specifies the information processor based on the acquired device identification information, and controls a power supply switching part 150 so as to execute the switching operation based on the operation identification information to the specified information processor. According to this, the power supply switching part 150 independently executes the switching operation of power on or power off of power supply to the designated information processor according to the designation by the operation identification information. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a power control device, a power control system, and a power control method for controlling power supply to a plurality of information processing devices.
[0002]
[Prior art]
In recent years, a plurality of computers and their peripheral devices are often used by being connected to each other via a network, and it is required that power management of these devices be performed efficiently. Is being developed.
[0003]
FIG. 13 is a diagram illustrating a configuration example of a conventional power supply control system using a power supply control device.
As shown in FIG. 13, in a conventional power supply control system, for example, a plurality of host devices 501 to 503 connected to a network 400 such as a LAN (Local Area Network) are individually supplied with power. Power supply control devices 601 to 603 for controlling were provided. Each of the power control devices 601 to 603 is also connected to the network 400, and each of the host devices 501 to 503 requests the corresponding power control device 601 to 603 to cut off its own power supply via the network 400. be able to.
[0004]
However, in such a system, as the number of host devices to be managed increases, the number of power control devices to be installed also increases, and the cost increases and the installation space also increases. When the power supply control device is connected to a network, addresses on the network such as an IP (Internet Protocol) address are required by the number of installed power supply control devices. Therefore, there is a demand for a system configuration in which a single power supply control device can control power supply to a plurality of devices.
[0005]
For example, in the related art, the power of a plurality of devices is backed up by one UPS (Uninterruptible Power Supply), and these devices are connected to the UPS via a network, and these devices are connected when a power failure occurs. There has been a system capable of performing processes such as shutting down via a network by the UPS or notifying an external alarm. Also, by using a power supply control device in which power supply terminals to a plurality of devices and a communication I / F are integrated, and executing power control software on a device that receives power supply from the power supply control device or a device connected to a network, There has been a system capable of remotely controlling the power on / off of devices connected to a power control device in a lump.
[0006]
Further, the host computer comprises an I / O board having a switch for individually switching on and off the power to a plurality of terminals, and a host computer for controlling the switching of each switch on the I / O board. There has been a terminal automatic start-up system in which, when a terminal to be turned on / off is designated, a corresponding switch is switched based on the designation (for example, see Patent Document 1).
[0007]
[Patent Document 1]
JP-A-6-315236 (paragraph numbers [0015] to [0061], FIG. 1)
[0008]
[Problems to be solved by the invention]
However, in a conventional system using the above-described UPS or a power supply control device on which power supply control software is executed, the power supply is turned on / off collectively for all of a plurality of connected devices. Therefore, it has been impossible to perform power management of each device individually. Therefore, for example, it is not possible to set the power-on schedule of each device individually, or wait for the elapse of the time when each device is shut down, and stop the power supply, or perform the optimal power management according to the device. Was.
[0009]
On the other hand, in the automatic start-up system disclosed in Patent Document 1, an I / O board for turning on / off the power and a host computer for controlling these are provided as separate devices, and the installation space is small. In addition to the inefficiency, power ON / OFF is simply switched individually by a switch, so that fine power management settings such as operation (power ON / OFF) schedule setting cannot be performed.
[0010]
The present invention has been made in view of such a problem, and an object of the present invention is to provide a power supply control device capable of performing a suitable power supply control for a plurality of information processing devices according to the devices. And
[0011]
Another object of the present invention is to provide a power supply control system capable of performing a suitable power supply control for a plurality of information processing apparatuses according to the apparatuses.
[0012]
Still another object of the present invention is to provide a power control method capable of individually performing more preferable power control for a plurality of information processing apparatuses.
[0013]
[Means for Solving the Problems]
In the present invention, in order to solve the above problems, a power supply control device 100 as shown in FIG. 1 is provided. The power supply control device 100 controls power supply to a plurality of information processing devices, and includes a power supply switching unit 150 that individually switches on and off of power to each of the information processing devices; An information acquisition unit 110 that acquires, via a network, device identification information for designating, and operation identification information for requesting any one of a power-on and power-off switching operation for the designated information processing device; A switching control unit that specifies the information processing device based on the device identification information and controls the power supply switching unit 150 to execute a switching operation based on the operation identification information for the specified information processing device; And characterized in that:
[0014]
Here, the information acquisition unit 110 converts the device identification information for specifying each information processing device and the operation identification information for requesting a switching operation of turning on or off the power to the specified information processing device. To get through the network. The switching control unit 120 specifies the information processing device based on the acquired device identification information, and controls the power supply switching unit 150 to execute a switching operation based on the operation identification information for the specified information processing device. Thereby, the power supply switching unit 150 individually turns on or off the power of the designated information processing device according to the designation by the operation identification information.
[0015]
Further, the information acquisition unit 110 may acquire, for example, time designation information for designating a time at which a switching operation based on the operation identification information is executed, together with the device identification information and the operation identification information. In this case, the switching control unit 120 causes the power supply switching unit 150 to execute a switching operation based on the operation identification information for the designated information processing device at the time designated by the time designation information.
[0016]
Further, according to the present invention, in a power supply system including a plurality of information processing devices and a power control device that controls power supply to each of the information processing devices, the information processing devices and the power control device are connected via a network. The power control device is connected to the power control device, and the device control information includes a device identification information for designating each of the information processing devices, and a request for switching either power on or off of the designated information processing device. An information acquisition unit that acquires the operation identification information through the network; and a switching operation that identifies the information processing device based on the acquired device identification information and performs a switching operation on the identified information processing device based on the operation identification information. And a switching control unit for controlling the power supply switching unit so as to execute the power supply switching unit. At least one of the host devices is provided with the interlocking device identification information for designating another information processing device to be turned on in conjunction with the host device and the power supply to the host device. An interlocking device setting section for setting a time interval until the power is turned on to the information processing device specified by the identification information in accordance with a user's input; and powering on the host device After that, when the time interval specified by the interval specifying information elapses, specifies the information processing device specified by the interlocking device identification information as the device identification information, and specifies power-on as the operation identification information, A switching operation requesting unit for transmitting the specified device identification information and the operation identification information to the power supply control device through the network. Your system is provided.
[0017]
Here, in the host device which is at least one of the plurality of information processing devices, the interlocking device setting unit determines the interlocking device identification for specifying another information processing device to be turned on in cooperation with the host device. Information and interval designation information for designating a time interval from when the power of the host device is turned on to when the power of the information processing device to be linked is turned on are set in accordance with a user input. When a time interval specified by the interval specifying information elapses after the power supply to the host device is turned on, the switching operation requesting unit is used as device identification information for specifying each information processing device to be controlled by the switching operation. The information processing device specified by the interlocking device identification information is specified, power-on is specified as operation identification information for requesting a switching operation to this device, and the device identification information and the operation identification information are transmitted to the power control device. To send over the network.
[0018]
On the other hand, in the power control device, the information acquisition unit acquires the device identification information and the operation identification information from the host device. The switching control unit specifies an information processing device based on the acquired device identification information, and controls the power supply switching unit to execute a switching operation based on the operation identification information for the specified information processing device. The power supply switching unit individually turns on or off the power of the designated information processing device according to the designation by the operation identification information.
[0019]
Therefore, after the power of the host device is turned on under the control of the power control device, for example, the host device turns on the power of another information processing device to be linked with this host device at a predetermined time interval. Is issued to the power supply control device, and in response to this request, the power supply to the other designated information processing devices is sequentially performed.
[0020]
Further, according to the present invention, in a power supply control method for controlling power supply to a plurality of information processing apparatuses connected to a network, a device identification information for specifying each of the information processing apparatuses, Operation identification information for requesting a switching operation of either power-on or power-off, is obtained from any one of the plurality of information processing devices via a network, and the specified by the obtained device identification information. A power supply control method is provided for turning on or off a power supply to an information processing apparatus based on the operation identification information.
[0021]
In such a power supply control method, device identification information for designating each information processing device and operation identification information for requesting a switching operation of turning on or off the power of the designated information processing device include: It is obtained from any of the information processing devices via a network. Then, power-on or power-off operations based on the operation identification information are individually performed on the information processing devices specified by the acquired device identification information.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First, as a first embodiment, a system for providing various services to terminals on the Internet centering on a Web server is assumed, and the present invention is applied to this system to control power supply to each server on the system. Will be described.
[0023]
FIG. 2 is a diagram illustrating a system configuration example of the power supply control system according to the first embodiment of the present invention.
In the power supply control system shown in FIG. 2, the power supply control device 100, the control host device 200, the Web server 310, the application server 320, and the database (DB) server 330 are mutually connected via a network 400 such as a LAN. It has a connected configuration.
[0024]
The power control device 100 supplies power to the Web server 310, the application server 320, and the database server 330 via power cables 310a, 320a, and 330a. Further, based on the settings received through the network 400, the power supply to these is controlled to be turned on and off.
[0025]
The control host device 200 communicates with the power supply control device 100 via the network 400 in response to an input by the operator, and requests power-on and power-off of the Web server 310, the application server 320, and the database server 330, and the time of these operations. Make reservation settings.
[0026]
The Web server 310 is a server device that performs a process of providing a WWW (World Wide Web) document through, for example, the Internet (not shown) connected via a gateway (not shown). The application server 320 is a server device that executes an application for providing various services through the Internet. Further, the database server 330 is a server device that stores various types of data that are referred to when the application is executed on the application server 320.
[0027]
For example, the Web server 310 provides a WWW document to a user terminal connected via the Internet, and requests the application server 320 to execute necessary processing via the network 400 in response to a request from the user terminal. The application server 320 executes a required application in response to a request from the web server 310. At this time, necessary data is read from the database server 330 via the network 400, and the processing result is output to the Web server 310 via the network 400. The Web server 310 generates a WWW document based on the received processing result and provides it to the user terminal via the Internet.
[0028]
When the power supply from the power cables 310a, 320a, and 330a is started, the Web server 310, the application server 320, and the database server 330 automatically execute a BIOS (Basic Input Output System) setup program. The system starts. Further, the system can be shut down in response to a control signal received through the network 400.
[0029]
Next, FIG. 1 is a block diagram showing an internal configuration of the power supply control device 100.
As shown in FIG. 1, the power supply control device 100 includes an information acquisition unit 110, a switching control unit 120, a reservation management unit 130, an information storage unit 140, a power supply switching unit 150, and a shutdown processing unit 160. Further, the information storage unit 140 stores a device correspondence table 141 and a reservation information table 142. Further, a battery 150 a and outlet terminals 151 to 155 are connected to the power supply switching unit 150.
[0030]
The information acquisition unit 110 communicates with an external device such as the control host device 200 via the network 400, and acquires setting information related to power-on and power-off. As the setting information, device identification information for specifying the device to be set, operation identification information for identifying the type of operation to be set, and time specification information for specifying the time of operation are used. When the acquired setting information does not include the time designation information, the information acquiring unit 110 supplies the acquired setting information to the switching control unit 120. In addition, when the time setting information is included, the acquired setting information is supplied to the reservation management unit 130.
[0031]
The switching control unit 120 receives the setting information from the information acquisition unit 110 or the reservation management unit 130, and refers to the device correspondence table 141 stored in the information storage unit 140, and refers to the outlet terminals 151 to 155 corresponding to the devices to be set. To identify. Then, a control signal indicating the specified terminal number and the identification of the type of operation is output to the power supply switching unit 150 to instruct to perform an operation according to the setting information. Further, when instructing to turn off the power, the control unit 160 instructs the shutdown processing unit 160 to shut down the corresponding device as necessary.
[0032]
The reservation management unit 130 receives the setting information from the information acquisition unit 110, stores the setting information in the reservation information table 142 of the information storage unit 140, and performs reservation setting. Also, the time is counted, and when the time specified by the time specifying information is reached, the corresponding setting information is read from the reservation information table 142 and output to the switching control unit 120.
[0033]
The information storage unit 140 includes, for example, a hard disk drive, a semiconductor memory, or the like. In the information storage unit 140, a device correspondence table 141 indicating the correspondence between the device identification information and the outlet terminals 151 to 155 of the power supply switching unit 150 is set in advance. The setting information from the reservation management unit 130 is sequentially stored in the reservation information table 142, and the setting information is read out to the reservation management unit 130 at the time of the reservation.
[0034]
The power supply switching unit 150 supplies an external AC power supply voltage to the outlet terminals 151 to 155 via the battery 150a, and supplies the AC power supply voltage to an external device. The power supply switching unit 150 individually switches on and off the power for each of the outlet terminals 151 to 155 according to a control signal from the switching control unit 120. In FIG. 1, five outlet terminals 151 to 155 are provided as an example, but the number of terminals is not limited to this.
[0035]
Note that an external AC power supply voltage may be directly supplied to the power supply switching unit 150 without providing the battery 150a. However, by providing the battery 150a, when an abnormality occurs in the power supply from the outside, the power from the battery 150a is continuously supplied to each of the outlet terminals 151 to 155 for a certain period of time, and the shutdown processing of the connected device is performed. enable. Thereby, the power supply control device 100 functions as a UPS.
[0036]
In response to the instruction from the switching control unit 120, the shutdown processing unit 160 communicates with the corresponding device via the network 400, and instructs this device to shut down.
[0037]
Such a power supply control device 100 acquires setting information for the switching operation of turning on and off the power from an external device through the network 400, and performs the switching operation of the power supply to the designated device based on the setting information. For this reason, in the power supply control device 100, when connecting the power cable from each device of the power supply destination to each of the outlet terminals 151 to 155, the outlet terminals 151 to 155 and the device that supplies power from each terminal are connected. The correspondence with the device identification information for identification is set in the device correspondence table 141 in advance. Thus, by designating the device identification information from an external device, it is possible to individually control the power switching operation for each device connected by the power cable.
[0038]
Here, FIG. 3 is a diagram illustrating an example of data stored in the device correspondence table 141.
In FIG. 3, device names such as "server A", "server B", and "server C" are used as device identification information. In the device correspondence table 141, these device names and outlets to which power cables from each device are connected are shown. The numbers are associated with each other. Such setting of the device correspondence table 141 is performed, for example, by an operator using an input device (not shown) provided in the power supply control device 100. Alternatively, it may be set from an external device such as the control host device 200 via the network 400.
[0039]
In this embodiment, as an example, “server A”, “server B”, and “server C” correspond to the web server 310, the application server 320, and the database server 330, respectively, and have outlet numbers “1” to “5”. Correspond to the outlet terminals 151 to 155, respectively.
[0040]
Next, a description will be given of a process in which the control host device 200 performs power control settings for each server.
FIG. 4 is a diagram illustrating a display example of a power control setting screen in the control host device 200.
[0041]
In FIG. 4, a screen 210 is a main screen for setting power control, and displays a list of names of all devices to be controlled and their current operation status, and is used to set an operation for each device. The icon is displayed. FIG. 4 shows, as an example, that the Web server 310 is currently powered on and this server is in operation. Further, for the Web server 310, an operation of immediately turning off the power, an operation of starting, that is, an operation of reserving a time at which the power is turned on, and an operation of stopping, ie, an operation of reserving the time at which the power is turned off, are respectively performed by the icons 211 to 213. It is possible. Similarly, for the currently stopped application server 320, the icons 214 to 216 enable immediate power-on, reservation of power-on time, and reservation of disconnection time, respectively.
[0042]
Here, for example, when the icon 211 is clicked, the control host device 200 sets the server A indicating the Web server 310 as the device identification information, and sets the identifier indicating the power-off as the operation identification information. Send to 100. When the icon 214 is clicked, a server B indicating the application server 320 and an identifier indicating power-on are set and transmitted as device identification information and operation identification information.
[0043]
When the icon 212 is clicked, the screen 220 is displayed, for example, in an overlapping manner. This screen 220 is a window for setting the time at which the apparatus is started. After the reservation date and time is input using numeric keys or the like, the button 221 is clicked, and the display is terminated. At the same time, the input reservation date and time are set in the time designation information, the server A and the identifier indicating power-on are set as the device identification information and the operation identification information, and these setting information are transmitted to the power supply control device 100. I do. When the icon 213 is clicked, a reservation time setting screen is displayed in the same manner, the input time is set as time designation information, and transmitted together with the device identification information and the operation identification information.
[0044]
Note that the above-described power control setting process is not limited to the control host device 200, and can be executed by an external device connected to the network 400, such as the Web server 310, the application server 320, and the database server 330. is there.
[0045]
Here, when only the device identification information and the operation identification information are transmitted to the power control device 100 as the setting information, the power control device 100 transfers the information acquired by the information acquisition unit 110 to the switching control unit 120. Then, the designated power supply switching operation is performed. Hereinafter, processing in power supply control device 100 at this time will be described with reference to a flowchart.
[0046]
FIG. 5 is a flowchart illustrating a flow of processing of the power supply control device 100 when an instruction to immediately turn on or off the power is given.
In step S501, the information acquisition unit 110 acquires device identification information and operation identification information as setting information via the network 400. The information acquisition unit 110 transfers the acquired information to the switching control unit 120.
[0047]
In step S502, the switching control unit 120 specifies the outlet number corresponding to the device identification information from the information acquisition unit 110 with reference to the device correspondence table 141.
[0048]
In step S503, the switching control unit 120 identifies the type of the designated switching operation based on the operation identification information. Here, if power-on is specified, the process proceeds to step S504, and if power-off is specified, the process proceeds to step S505.
[0049]
In step S504, the switching control unit 120 outputs a control signal to the power supply switching unit 150, and notifies the specified outlet number and information indicating power-on as the type of switching operation. The power supply switching unit 150 starts energization to the outlet terminal corresponding to the notified outlet number based on the control signal from the switching control unit 120. As a result, the power is turned on for the designated device. For example, when the outlet number “1” is notified, power supply from the outlet terminal 151 is started. The Web server 310 powered on by this processing is automatically started.
[0050]
When the power-off is instructed, in step S505, the switching control unit 120 instructs the shutdown processing unit 160 to shut down the device identified by the device identification information. In response to this instruction, the shutdown processing unit 160 transmits a control signal for instructing the corresponding device to shut down via the network 400. The device that has received the control signal automatically performs the shut-out process.
[0051]
In step S506, a predetermined time required for shutdown is counted, and when the time has elapsed, the process proceeds to step S507. In step S507, the switching control unit 120 outputs a control signal to the power supply switching unit 150, and notifies the specified outlet number and information indicating power-off as the type of switching operation. The power supply switching unit 150 stops power supply to the outlet terminal corresponding to the notified outlet number, based on the control signal from the switching control unit 120.
[0052]
By the processes in steps S506 and S507, the power supply is stopped after the reliable shut-out process is performed in the device to be controlled. The time counted in step S506 may be set, for example, according to the device identification information. If the device to be controlled performs a shutdown process in response to an instruction from a device other than the power supply control device 100, the processes in steps S505 and S506 are not performed.
[0053]
On the other hand, when the device identification information, the operation identification information, and the time designation information are transmitted to the power control device 100 as the setting information, the power control device 100 stores the acquired information in the reservation management unit 130 through the processing of the reservation management unit 130. It is stored in the information table 142.
[0054]
FIG. 6 is a diagram illustrating an example of data stored in the reservation information table 142.
In FIG. 6, for example, on the first line, “20:00 on December 19, 2002” is specified by the time specification information, “OFF” indicating power-off is specified as the operation identification information, and the device identification information is specified. “Server A” is specified. That is, based on these pieces of information, the reservation is set so as to cut off the power supply to the Web server 310 at 20:00 on December 19, 2002.
[0055]
When at least one reservation is set in the reservation information table 142, the reservation management unit 130 executes the processing shown in the following flowchart.
FIG. 7 is a flowchart showing a flow of processing of the power supply control device 100 when a reservation for turning on or off the power is set.
[0056]
In step S701, the reservation management unit 130 counts time. Then, in step S702, the reservation management unit 130 refers to the time designation information stored in the reservation information table 142, and determines whether there is setting information set to be reserved at this time. If there is, one of the setting information is extracted and output to the switching control unit 120, and the process proceeds to step S703. If not, the process proceeds to step S709.
[0057]
The processing shown in steps S703 to S708 is the same as the processing shown in steps S502 to S507 in FIG. That is, when receiving the supply of the device identification information and the operation identification information from the reservation management unit 130, the switching control unit 120 refers to the device correspondence table 141, specifies the outlet number corresponding to the device identification information, and specifies the outlet number. The power supply switching unit 150 is notified of the number and the type of power supply switching operation based on the operation identification information. The power supply switching unit 150 starts or ends energization at the corresponding outlet terminal according to the notified information.
[0058]
After these processes are completed, the process returns to step S702, and it is determined whether or not there is any other setting information reserved at the same time, and the processes in steps S702 to S708 are executed for all the setting information. After these are completed, the process proceeds to step S709.
[0059]
In step S709, it is determined whether or not to end the process of monitoring the reservation setting. If not, the process returns to step S701 to continue counting the time. In addition, for example, when there is no setting information in the reservation information table 142, the process ends.
[0060]
With the above processing, the power supply control device 100 individually performs the switching operation of turning on and off the power supply to each device connected to the outlet terminals 151 to 155 in accordance with the setting information from the control host device 200 for each device. Control. Therefore, the power supply control of a plurality of devices can be performed collectively using one power supply control device 100, and the device cost and the installation space of the power supply control device 100 are suppressed. At the same time, the number of addresses on the network that need to be assigned to the power control device 100 decreases.
[0061]
In addition, by setting the power supply control device 100 from an external device through the network 400, the power supply switching operation for each device can be individually and remotely controlled. It is possible to do well. Further, the time at which such a power supply switching operation is performed can be reserved and set, so that the power supply switching operation at an optimal timing can be efficiently performed for each device.
[0062]
For example, in the case of the present embodiment, the Web server 310 operates in response to the processing result of the application server 320, and the application server 320 operates with reference to the data of the database server 330. Therefore, it is preferable that the power supply is turned on in the order of the database server 330, the application server 320, and the Web server 310, and that the power supply be turned off in the reverse order. In addition, since a certain amount of time is required for startup and shutdown in each server, it is desirable that a predetermined time interval is provided between the power-on timing and the power-off timing therebetween.
[0063]
Here, referring to the reservation information table 142 shown in FIG. 6, the power-off times for the Web server 310, the application server 320, and the database server 330 are “20:00”, “20:03”, and “20:05”, respectively. The power supply is set so as to be sequentially turned off at intervals of several minutes. The power-on time is "07: 00", "06: 57", "06: 55" on the next day, and the power is turned on in the reverse order of the power-on. .
[0064]
As described above, since the reservation setting of the time at which the power supply switching operation is performed can be set, the power supply control can be performed reliably and efficiently without causing the device to be controlled to operate abnormally. It becomes.
[0065]
By the way, in the first embodiment, it is desirable that the turning on and off of the power to the Web server 310, the application server 320, and the database server 330 are always performed in conjunction with each other. Therefore, in the case of the present embodiment, it is possible to set all the schedules for such switching operation for each day of the week in the power supply control device 100 and to control the operations collectively by the power supply control device 100. However, one device to be power-controlled may recognize other devices to be linked with itself, and autonomously control these linked operations. In this case, the processing load on the power supply control device 100 can be reduced. Hereinafter, such a power supply control system will be described as a second embodiment.
[0066]
FIG. 8 is a diagram illustrating a system configuration example of a power supply control system according to the second embodiment of the present invention. In FIG. 8, the elements corresponding to those in FIG. 2 described above are denoted by the same reference numerals, and description thereof will be omitted.
[0067]
The power supply control system shown in FIG. 8 has a configuration in which the power supply control device 100 and the Web server 310, the application server 320, and the database server 340 to be power controlled are connected via the network 400. Among them, the power control device 100, the Web server 310, and the application server 320 have the same configuration as that shown in FIG. Further, in addition to the functions of the database server 330 shown in FIG. 1, the database server 340 sets a schedule for the switching operation of the database server 340 and requests the power supply control device 100 to perform the switching operation. An automatic execution function of power control for the Web server 310 and the application server 320 to be performed is provided.
[0068]
First, a description will be given of a process in the database server 340 for setting a schedule of a power supply switching operation for itself.
FIG. 9 is a diagram illustrating a screen display example of a schedule setting screen in the database server 340.
[0069]
In the database server 340, a screen as shown in FIG. 9 is displayed in response to an input operation by the operator, whereby a schedule for power-on and power-off for itself is reserved in advance. The screen shown in FIG. 9 includes a schedule setting unit 341 capable of setting the time during which the power is turned on and the system is operated for one week, an operation button 342 for setting an operation time and a stop time, respectively. An OFF button 343 and a decision button 344 for saving the set information in the database server 340 are provided.
[0070]
On this screen, the operation time zone is set by clicking the operation button 342 by an operator's operation input and dragging the schedule setting section 341 in a state where the check box in this button is selected. Can be. Similarly, by dragging the inside of the schedule setting unit 341 in a state where the OFF button 343 is clicked, the operation stop time zone can be set.
[0071]
Then, after the setting is completed, by clicking the enter button 344, the set information is saved, and a process of requesting the power control device 100 to perform a switching operation based on the set schedule is executed.
[0072]
FIG. 10 is a flowchart illustrating a flow of a process for requesting power supply control device 100 to perform a power supply switching operation based on a set schedule in database server 340.
[0073]
In step S1001, the next time when the power is turned off is extracted with reference to the saved schedule information. In step S1002, the time is counted, and when a predetermined time such as another five minutes elapses until the time extracted in step S1001, the process proceeds to step S1003. In step S1003, a time at which the power is next turned off and a time at which the power is next turned on are extracted from the schedule information, and setting information (device identification information, operation identification information, time designation information) based on these is extracted. Is generated and transmitted to the power control device 100 via the network 400.
[0074]
Thereby, under the control of the power supply control device 100, the database server 340 is automatically shut down at the designated time, and the power supply is cut off. Then, at the next designated time, power supply is started again, and the database server 340 is automatically started. Further, after the activation, the processing shown in FIG. 10 is executed again. Thereby, power supply control for the database server 340 is automatically executed according to the set schedule.
[0075]
The process described with reference to FIGS. 9 and 10 is a process for enabling the power supply control target server to individually set the schedule of the power supply switching operation for the server itself. The schedule setting may be performed not only on the database server 340 but also on each of the other Web servers 310 and the application servers 320, and the control according to the schedule may be executed by the power supply control device 100. That is, with such control, it is possible to individually perform power control on a plurality of servers using one power control device 100.
[0076]
Next, processing for linking power control of another server in the database server 340 will be described. FIG. 11 is a diagram illustrating an example of a screen display for setting power control for another server to be linked.
[0077]
As shown in FIG. 11, the power control setting screen for the other server includes an execution interval setting unit 345 for designating an execution interval for turning on and off the power of the other server, and adding and setting contents of the server to be controlled. Button 346, a change button 347, a delete button 348 for changing the setting and deleting the setting contents, order change buttons 349 and 350 for changing the display order of the server with its upper and lower parts, respectively, and confirm the setting contents. Button 351 and the like are provided.
[0078]
In the execution interval setting unit 345, server names are set in the order of power-on from the top. For each server, the time interval between when the power to the database server 340 is turned on and the time interval between when the power to these servers is turned off and when the power to the database server 340 is turned off are set. Is set. Further, the power supply control device 100 (indicated as UPS in the figure) for executing such power supply switching control can be designated by, for example, an IP address.
[0079]
When the power is turned off, the servers displayed on the execution interval setting unit 345 are controlled sequentially from the bottom. Also, in FIG. 11, the same value corresponding to the power-off interval is set as the power-on interval for each server, but any time interval can be set according to the time required for startup and shutdown. It is.
[0080]
When an input is made on the screen as shown in FIG. 11 and the OK button 351 is clicked, the set information is stored in the database server 340, and the power supply to other servers is switched according to the set time interval. Processing for requesting the operation of the power supply control device 100 is performed.
[0081]
FIG. 12 is a flowchart illustrating a flow of a process of requesting another server to perform a power supply switching operation.
The process of the flowchart in FIG. 12 is executed after the power supply to the database server 340 is turned on by the power supply control device 100 and the database server 340 is activated. The setting of the power on / off schedule for the database server 340 itself is based on the processing shown in FIG.
[0082]
In step S1201, by referring to the power control information set on the screen shown in FIG. 11, the time interval set for the server (the application server 320 in the example of FIG. 11) to which power is to be turned on earliest is extracted. I do. In step S1202, the time is counted, and when the time extracted in step S1201 has elapsed, the process proceeds to step S1203.
[0083]
In step S1203, setting information for requesting to turn on the power of the target server is generated and transmitted to the power control device 100 specified by the power control information via the network. The power supply control device 100 that has received the setting information starts to turn on the power to the target server (the application server 320 in this case). Thus, after the database server 340 starts, the application server 320 starts at a time interval set by the power control information.
[0084]
In step S1204, it is determined whether the processing for all servers set in the power control information has been completed. If the processing has not been completed, the process returns to step S1201, and the processing of steps S1201 to S1203 for requesting power-on for the next server (the Web server 310 in the example of FIG. 11) is executed. If the processing has been completed for all servers, the process proceeds to step S1205, and processing for requesting power-off is started.
[0085]
In step S1205, by referring to the set power control information, a time interval for turning off the power set for the server (the Web server 310 in the example of FIG. 11) to which the power supply is to be cut off first is extracted. . Also, referring to the power-off schedule of the database server 340 itself set on the screen of FIG. 9, a time at which the power is next turned off is extracted, and based on this time, a server at which the power is turned off next The disconnection time for (Web server 310) is calculated.
[0086]
In step S1206, the time is counted, and when the time calculated in step S1205 comes, the process proceeds to step S1207.
In step S1207, setting information requesting the target server to turn off the power is generated, and transmitted to the power control device 100 specified by the power control information via the network. The power supply control device 100 that has received this setting information stops power supply to the target server (here, the Web server 310). As a result, the Web server 310 is shut down and the power supply is stopped before the time when the power supply to the database server 340 is turned off and before the time interval set in the power supply control information.
[0087]
In step S1208, it is determined whether the processing for all servers set in the power control information has been completed. If the processing has not been completed, the process returns to step S1205, and the processing of steps S1205 to S1207 for requesting the server to be powered off next (the application server 320 in the example of FIG. 11) to perform power off is executed. When the processing is completed for all servers, the database server 340 is shut down and the power supply is stopped under the control of the power supply control device 100 after a predetermined time.
[0088]
Note that the above flowchart shows the processing from the start of the database server 340 to the shutdown. However, after the setting shown in FIG. 11 is performed, the processing from step S1205 in the flowchart until the shutdown is performed. Is performed.
[0089]
By such processing by the database server 340, the switching operation of the power supply to the Web server 310 and the application server 320 can be linked with the database server 340. At this time, a desired interval can be provided between power-on and power-off timings between the servers so as not to hinder the operation between the servers.
[0090]
Therefore, with the control set only between one server and one power supply control device, the power supply switching operation of a plurality of servers can be efficiently linked, and the optimal power supply automatic control according to each server can be performed. Control is realized.
[0091]
(Supplementary Note 1) In a power supply control device that controls power supply to a plurality of information processing devices,
A power supply switching unit that individually switches power on and off for each of the information processing devices;
Information acquisition for acquiring, through a network, device identification information for designating each of the information processing devices and operation identification information for requesting a switching operation of turning on or off the power of the designated information processing device Department and
A switching control unit that specifies the information processing device based on the acquired device identification information and controls the power supply switching unit to execute a switching operation based on the operation identification information for the specified information processing device When,
A power supply control device comprising:
[0092]
(Supplementary note 2) The power supply control device according to supplementary note 1, wherein the device identification information and the operation identification information are transmitted from any one of the plurality of information processing devices through the network.
[0093]
(Supplementary Note 3) The information acquisition unit acquires, together with the device identification information and the operation identification information, time designation information for designating a time at which a switching operation based on the operation identification information is performed,
2. The power supply switching unit according to claim 1, wherein the switching control unit causes the power supply switching unit to execute a switching operation based on the operation identification information for the designated information processing device at a time designated by the time designation information. Power control device.
[0094]
(Supplementary Note 4) The switching control of turning on and off the power based on the acquired device identification information and the operation identification information is executed independently with each of the plurality of information processing devices to which power is supplied. The power supply control device according to claim 1, characterized in that:
[0095]
(Supplementary Note 5) The information processing apparatus further includes a shutdown instruction processing unit that instructs each of the information processing apparatuses to execute a shutdown operation through the network, and the switching control unit is configured to designate power-off by the operation identification information. Requesting the shutdown instruction processing unit to instruct the information processing apparatus identified based on the apparatus identification information to execute a shutdown operation, and after a predetermined time, supply power to the identified information processing apparatus. 2. The power supply control device according to claim 1, wherein the power supply switching unit is controlled to disconnect the power supply.
[0096]
(Supplementary Note 6) The power supply switching unit includes a connection terminal to which the power cable from each of the information processing devices is connected,
The power supply control device according to claim 1, wherein the switching control unit controls a switching operation of the power supply switching unit according to a preset correspondence table between the device identification information and the connection terminal.
[0097]
(Supplementary Note 7) In a power supply system including a plurality of information processing devices and a power supply control device that controls power supply to each of the information processing devices,
Each of the information processing devices and the power control device are interconnected via a network,
The power control device,
Information for obtaining, via the network, device identification information for designating each of the information processing devices and operation identification information for requesting any one of a power-on and power-off switching operation for the designated information processing device An acquisition unit;
A switching control unit that specifies the information processing device based on the acquired device identification information and controls the power supply switching unit to execute a switching operation based on the operation identification information for the specified information processing device When,
Has,
A host device that is at least one of the plurality of information processing devices,
Interlocking device identification information for designating another information processing device to be turned on in conjunction with the host device, and powering on the information processing device specified by the interlocking device identification information after powering on the host device An interlocking device setting unit that sets interval specification information that specifies a time interval until the user inputs the information, according to a user input;
After the power is supplied to the host device, when the time interval specified by the interval specifying information elapses, the information processing device specified by the interlocking device identification information is specified as the device identification information, and the operation identification is performed. A switching operation requesting unit that specifies power-on as information and transmits the specified device identification information and the operation identification information to the power supply control device through the network.
A power supply control system comprising:
[0098]
(Supplementary Note 8) In the power supply control device,
The information obtaining unit, together with the device identification information and the operation identification information, obtains time specification information for specifying a time at which a switching operation based on the operation identification information is performed,
The switching control unit, at the time specified by the time specification information, causes the power supply switching unit to perform a switching operation based on the operation identification information for the specified information processing device,
In the host device,
The switching operation request unit sets a time at which power to the host device itself is to be turned on and off by using the device identification information, the operation identification information, and the time designation information in advance for the power supply control device. Holding the set execution time of the power-off, when the time until the execution time reaches the time interval specified by the interlocking interval information, the information processing device specified by the corresponding interlocking device identification information Requesting the power supply control device using the device identification information and the operation identification information so as to turn off the power,
7. The power supply control system according to claim 7, wherein
[0099]
(Supplementary Note 9) In a power supply control method for controlling power supply to a plurality of information processing apparatuses connected to a network,
Device identification information for designating each of the information processing devices, and operation identification information for requesting a switching operation of turning on or off power to the designated information processing device, Obtained from some information processing device through a network,
For the information processing device specified by the acquired device identification information, power on or off based on the operation identification information,
A power control method characterized by the above-mentioned.
[0100]
【The invention's effect】
As described above, in the power supply control device of the present invention, the device identification information and the operation identification information are acquired through the network, and the information processing device specified by the device identification information is turned on or off according to the specification by the operation identification information. Cutting is performed individually. For this reason, power supply control for a plurality of information processing apparatuses can be individually performed using one power supply control apparatus, and the apparatus cost and installation space can be reduced. Further, for example, together with the device identification information and the operation identification information, time designation information for designating a time at which the switching operation based on the operation identification information is executed is obtained, and at the time designated by the time designation information, The switching operation based on the operation identification information for the processing device may be performed by the power supply switching unit. In this case, for example, it is possible to perform optimal power control for each information processing device, for example, by providing an interval for turning on and off the power to each information processing device.
[0101]
In the power supply control system according to the present invention, after the power of the host device is turned on, the host device turns on the power of another information processing device to be linked with the host device at a predetermined time interval. A request is issued to the power supply control device via the network, and in response to the request, the power supply to other designated information processing devices is sequentially performed. For this reason, it is possible to easily realize automatic control in which the power is turned on at an optimal timing according to each information processing device without increasing the device cost and the installation space of the power supply control device.
[0102]
Further, in the power supply control method of the present invention, the device identification information and the operation identification information are acquired from one of the information processing devices via a network, and the operation identification information is specified for the information processing device designated by the acquired device identification information. The operation of turning on or off the power supply based on is performed individually. Therefore, optimal power supply control according to a plurality of information processing apparatuses can be performed collectively, and the apparatus cost and installation space can be suppressed, and power supply control can be made more efficient.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating an internal configuration of a power supply control device according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a system configuration example of a power supply control system according to the first embodiment of the present invention.
FIG. 3 is a diagram illustrating an example of data stored in a device correspondence table.
FIG. 4 is a diagram showing a display example of a power control setting screen in the control host device.
FIG. 5 is a flowchart showing a flow of processing of the power supply control device when an instruction to immediately turn on or off power is given.
FIG. 6 is a diagram showing an example of data stored in a reservation information table.
FIG. 7 is a flowchart illustrating a flow of processing of the power supply control device when a reservation of power-on or power-off is set.
FIG. 8 is a diagram illustrating a system configuration example of a power supply control system according to a second embodiment of the present invention.
FIG. 9 is a diagram showing a screen display example of a schedule setting screen in the database server.
FIG. 10 is a flowchart illustrating a flow of a process for requesting the power supply control device to perform a power supply switching operation based on a set schedule in the database server.
FIG. 11 is a diagram illustrating an example of a screen display for setting power control for another server to be linked;
FIG. 12 is a flowchart illustrating a flow of a process of requesting another server to perform a power supply switching operation.
FIG. 13 is a diagram showing a configuration example of a conventional power supply control system using a power supply control device.
[Explanation of symbols]
100 Power control device
110 Information acquisition unit
120 Switching control unit
130 Reservation Management Department
140 Information storage unit
141 device correspondence table
142 reservation information table
150 Power supply switching unit
150a battery
151-155 outlet terminal
160 shutdown processing section
200 control host device
310 Web server
320 Application Server
330 Database Server
310a, 320a, 330a power cable

Claims (5)

In a power supply control device that controls power supply to a plurality of information processing devices,
A power supply switching unit that individually switches power on and off for each of the information processing devices;
Information acquisition for acquiring, through a network, device identification information for designating each of the information processing devices and operation identification information for requesting a switching operation of turning on or off the power of the designated information processing device Department and
A switching control unit that specifies the information processing device based on the acquired device identification information and controls the power supply switching unit to execute a switching operation based on the operation identification information for the specified information processing device When,
A power supply control device comprising: The power supply control device according to claim 1, wherein the device identification information and the operation identification information are transmitted from one of the plurality of information processing devices through the network. The information obtaining unit, together with the device identification information and the operation identification information, obtains time specification information for specifying a time at which a switching operation based on the operation identification information is performed,
2. The power supply switching unit according to claim 1, wherein the switching control unit causes the power supply switching unit to execute a switching operation based on the operation identification information for the designated information processing device at a time designated by the time designation information. The power supply control device as described in the above. In a power supply system including a plurality of information processing devices and a power supply control device that controls power supply to each of the information processing devices,
Each of the information processing devices and the power control device are interconnected via a network,
The power control device,
Information for obtaining, via the network, device identification information for designating each of the information processing devices and operation identification information for requesting any one of a power-on and power-off switching operation for the designated information processing device An acquisition unit;
A switching control unit that specifies the information processing device based on the acquired device identification information and controls the power supply switching unit to execute a switching operation based on the operation identification information for the specified information processing device When,
Has,
A host device that is at least one of the plurality of information processing devices,
Interlocking device identification information for designating another information processing device to be turned on in conjunction with the host device, and powering on the information processing device specified by the interlocking device identification information after powering on the host device An interlocking device setting unit that sets interval specification information that specifies a time interval until the user inputs the information, according to a user input;
After the power is supplied to the host device, when the time interval specified by the interval specifying information elapses, the information processing device specified by the interlocking device identification information is specified as the device identification information, and the operation identification is performed. A switching operation requesting unit that specifies power-on as information and transmits the specified device identification information and the operation identification information to the power supply control device through the network.
A power supply control system comprising: In a power supply control method for controlling power supply to a plurality of information processing devices connected to a network,
Device identification information for designating each of the information processing devices, and operation identification information for requesting a switching operation of turning on or off power to the designated information processing device, Obtained from some information processing device through a network,
For the information processing device specified by the acquired device identification information, power on or off based on the operation identification information,
A power control method characterized by the above-mentioned.

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