JP6945416B2 - Power controller, control method, control program, and control system - Google Patents

Description

The present invention relates to a power supply control device, a power supply control method, a power supply control program, and a power supply control system, and in particular, a PoE power supply control means for controlling PoE power supply to a connected device connected under the control, and the connected device. The present invention relates to controlling a power supply to a PoE power supply device provided with a communication relay means for relaying the communication of the above.

Conventionally, a PoE power supply device that supplies power while connecting to a PoE (Power over Ethernet) compatible device such as a connected access point or network camera by using a twisted pair cable used in a computer network has been known. ing.

By simply connecting a PoE compatible device to this PoE power supply device via a twisted pair cable, power supply and network connection can be performed at the same time, so that power supply work for the PoE compatible device can be eliminated.

In recent years, a PoE power supply device with a diagnostic function has been developed that not only supplies power but also has a function of diagnosing the normality of a PoE-compatible IP (Internet Protocol) device connected to the PoE power supply device (for example). , Patent Document 1). By using such a PoE power supply device with a diagnostic function, it is possible to monitor the connected PoE-compatible IP device and recover in the event of a failure.

FIG. 12 is a PoE power supply device having a function of diagnosing the normality of the connected IP device.
As shown in FIG. 12, the PoE power supply device 1 is a PoE hub that relays IP packets between the IP network 20 and the IP device 30 connected under the control, and is the IP device diagnosis unit 10 and the uplink side. It includes a port 11, an IP packet relay control unit 12, a downlink side PoE port 13, a power supply control unit 14, a PoE power supply unit 15, and a reference data storage unit 16.

The uplink side port 11 is for connecting to a device on the upper IP network 20 side such as a router, a gateway, and an ONU (Optical Network Unit).
The IP packet relay control unit 12 relays IP packets between the uplink side port 11 and a plurality of downlink side PoE ports 13-1 to 13-n, and the number of packets or data of the relayed IP packets. This is for measuring the amount and outputting the measured value to the IP device diagnosis unit 10.

IP devices 30-1 to 30-n are connected to the downlink side PoE ports 13-1 to 13-n, and power is output from the PoE power feeding unit 15 to the connected IP device 30.

The power supply control unit 14 is for converting the electric power received from the AC 100V outlet, which is a commercial power source, into a predetermined operating voltage and supplying it to each unit in the PoE power supply device 1.
The PoE power supply unit 15 converts the power supplied from the power supply control unit 14 into PoE power and outputs it to each downlink side PoE port 13, measures the power supply amount, and uses the measured value as the IP device diagnosis unit 10. It is for notifying to. Further, the PoE power supply unit 15 can control ON / OFF of power supply according to an instruction from the IP device diagnosis unit 10.

The reference data storage unit 16 stores the reference data required for diagnosis output from the IP device diagnosis unit 10, and also outputs predetermined reference data stored in response to a request from the IP device diagnosis unit 10. belongs to.

The IP device diagnosis unit 10 measures the downlink side PoE port 13 to be diagnosed by the IP packet relay control unit 12 at the measurement timing for each downlink side PoE port 13 stored in the reference data storage unit 16. The amount of data per unit time input from 30 and the value of the amount of PoE power supply measured by the PoE power supply unit 15 are compared with the reference data stored in the reference data storage unit 16 and stored in the reference data. Judge whether or not the normal value range is satisfied.

When the IP device diagnosis unit 10 determines that the normal value range stored in the reference data is not satisfied, it is determined that the IP device 30 connected to the downlink side PoE port 13 may be abnormal. The alarm information is reported to the report destination stored in the reference data storage unit 16.

Further, if there is a downlink side PoE port 13 determined to have a possibility of abnormality, PoE power supply to the downlink side PoE port 13 determined to have a possibility of abnormality is temporarily cut off, and then again. The IP device diagnosis unit 10 outputs an instruction to connect and supply power to the PoE power supply unit 15.

As a result, the PoE power supply is temporarily cut off for the IP device 30 connected to the downlink side PoE port 13 determined to have a possibility of abnormality, and then the PoE power supply is reconnected to supply power. By doing so, the IP device 30 can be restarted and returned to normal.

JP-A-2017-17750

However, it is conceivable that the PoE power supply device 1 freezes because the packet flow is concentrated by a plurality of IP devices connected to the downlink side PoE port. If the PoE power supply device 1 freezes, the connected IP device 30 cannot normally perform communication and power supply, so that there is a problem that the network using the PoE power supply device cannot be operated stably.

When there are many IP devices 30 to be connected, the number of terminals of the IP devices 30 to be connected can be increased by connecting a plurality of PoE power supply devices n under the PoE power supply device 1. However, in the uppermost PoE power supply device 1 in which a plurality of PoE power supply devices n and a plurality of IP devices 30 are connected under the control, packets of the plurality of IP devices 30 connected to the PoE power supply device n are concentrated at once. If the PoE power supply device 1 on the uppermost layer freezes, there is a problem that many IP devices 30 are affected by communication and power supply.

The present invention has been made in view of these points, and is a power supply control device, a power supply control method, a power supply control system, and a power supply capable of stably operating a PoE power supply device even if many connected devices are connected under the control. The purpose is to provide a control program.

In the present invention, in order to solve the above problem, a PoE power supply control means for controlling a PoE power supply to a connected device connected under the control and a communication relay means for relaying communication with the connected connected device are provided. In the power supply control device that controls the power supply to the PoE power supply device, the first power supply output means for outputting the power to be input to the PoE power supply device, the communication means for communicating with the PoE power supply device, and the communication means. A monitoring means for monitoring the normal operation of the PoE power supply device and the connected device via the monitoring means, and a PoE power supply device restoration for restoring the PoE power supply device when the monitoring means determines that the PoE power supply device is not normal. Provided is a power supply control device including means and a connected device recovery means for recovering the connected device when the monitoring means determines that the connected device is not normal.

As a result, the first power supply output means outputs the power to be input to the PoE power supply device, the communication means communicates with the PoE power supply device, and the monitoring means communicates with the PoE power supply device and the connected device via the communication means. When the PoE power supply device recovery means determines that the PoE power supply device is not normal by monitoring the normal operation of the PoE power supply device, the PoE power supply device is restored, and the connected device recovery means is used by the monitoring means. If it is determined that it is not normal, the connected device is restored.

Further, in the present invention, to a PoE power supply device including a PoE power supply control means for controlling a PoE power supply to a connected device connected under the control and a communication relay means for relaying communication with the connected device. In the power supply control method for controlling the power supply, the first power supply output means outputs the electric power for inputting to the PoE power supply device, the communication means communicates with the PoE power supply device, and the monitoring means When the step of monitoring the normal operation of the PoE power supply device and the connected device via the communication means and the PoE power supply device restoration means determine that the PoE power supply device is not normal by the monitoring means, the said Power control including a step of restoring the PoE power supply device and a step of restoring the connected device when the monitoring means determines that the connected device is not normal. A method is provided.

As a result, the first power supply output means outputs the power to be input to the PoE power supply device, the communication means communicates with the PoE power supply device, and the monitoring means communicates with the PoE power supply device and the connected device via the communication means. When the PoE power supply device recovery means determines that the PoE power supply device is not normal by monitoring the normal operation of the PoE power supply device, the PoE power supply device is restored, and the connected device recovery means is used by the monitoring means. If it is determined that it is not normal, the connected device is restored.

Further, in the present invention, to a PoE power supply device including a PoE power supply control means for controlling a PoE power supply to a connected device connected under the control and a communication relay means for relaying communication with the connected device. In a power control program for controlling a power source, a first power supply output means for outputting power for inputting a computer to the PoE power supply device, a communication means for communicating with the PoE power supply device, and the PoE via the communication means. A monitoring means for monitoring the normal operation of the power supply device and the connected device, a PoE power supply device recovery means for restoring the PoE power supply device when the monitoring means determines that the PoE power supply device is not normal, and the monitoring means. Provided is a power control program characterized by functioning as a connected device recovery means for recovering the connected device when it is determined that the connected device is not normal.

As a result, the first power supply output means outputs the power to be input to the PoE power supply device, the communication means communicates with the PoE power supply device, and the monitoring means communicates with the PoE power supply device and the connected device via the communication means. When the PoE power supply device recovery means determines that the PoE power supply device is not normal by monitoring the normal operation of the PoE power supply device, the PoE power supply device is restored, and the connected device recovery means is used by the monitoring means. If it is determined that it is not normal, the connected device is restored.

Further, in the present invention, the PoE power supply device including the PoE power supply control means for controlling the PoE power supply to the connected device connected under the control and the communication relay means for relaying the communication with the connected device, and the above. The first power supply output means for outputting the power to be input to the PoE power supply device, and

The communication means for communicating with the PoE power supply device, the monitoring means for monitoring the normal operation of the PoE power supply device and the connected device via the communication means, and the monitoring means determine that the PoE power supply device is not normal. It is provided with a PoE power supply device recovery means for recovering the PoE power supply device when the above is performed, and a connection device recovery means for recovering the connected device when the monitoring means determines that the connected device is not normal. A power control system is provided that comprises a power control device.

As a result, in the PoE power supply device, the PoE power supply control means controls the PoE power supply to the connected device connected under the control, the communication relay means relays the communication with the connected connected device, and the power control device is the PoE. The first power output means outputs the power to be input to the power supply device, the communication means communicates with the PoE power supply device, and the monitoring means monitors the normal operation of the PoE power supply device and the connected device via the communication means. When the monitoring means determines that the PoE power supply device is not normal, the PoE power supply device recovery means restores the PoE power supply device, and when the monitoring means determines that the connected device is not normal, the connected device is connected. The device recovery means restores.

According to the power control device, the power control method, the power control program, and the power control system, the first power output means outputs the power to be input to the PoE power supply device, and the communication means powers the PoE. When communicating with the device, the monitoring means monitors the normal operation of the PoE power supply device and the connected device via the communication means, and the PoE power supply device recovery means determines that the PoE power supply device is not normal by the monitoring means. In addition, the PoE power supply device is restored, and the connected device recovery means restores the connected device when the monitoring means determines that the connected device is not normal. Therefore, even if the PoE power supply device freezes, the PoE power supply device and The connected equipment can be operated stably.

It is a block diagram which shows the detail of the power-source control device which concerns on 1st Embodiment. It is a figure which shows the concept of the whole power-source control system to which a power-source control device is connected. It is a block diagram which shows the detail of a control part. It is a block diagram which shows the detail of an information storage part. It is a figure which shows the example of the data structure of the main body connected device information stored in the main body connected device information storage part. It is a figure which shows the example of the data structure of the PoE connection device information stored in the PoE connection device information storage part. It is a flowchart which shows the process from the start of monitoring by a power control device to the time of performing power control. It is a flowchart which shows the process from determining that the power supply control device is not operating normally to performing power supply control. It is a flowchart which shows the process from receiving the power ON / OFF control signal for remote control of a PoE connection device in a network by the power control device to performing the power ON / OFF control. It is a block diagram which shows the detail of the power-source control device which concerns on 2nd Embodiment. It is a figure which shows the concept of the whole power-source control system to which a power-source control device is connected. It is a PoE power supply device having a function of diagnosing the normality of the connected IP device.

[First Embodiment]
Hereinafter, the first embodiment of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram showing details of the power supply control device according to the first embodiment.

As shown in FIG. 1, the power supply control device 100 includes a control unit 110, an information storage unit 120, a communication unit 130, a power supply unit 140, a power supply unit 150, a first power supply output unit 160, and a second power supply output unit 170. ing.

The power supply control device 100 controls power input from an external power source such as a commercial power source via the power supply unit 150, and is connected to a first power supply output unit 160 and a second power supply output unit 170 as a PoE power supply device (not shown). This is a device for stable operation of the main body connection device 200 and the router 400, and the PoE connection device 300 (not shown) connected under the PoE power supply device 200.

The control unit 110 is connected to the information storage unit 120, the communication unit 130, and the power supply unit 140, monitors the operation of the network equipment connected via the communication unit 130, and the connected network equipment operates normally. It is for judging whether or not it is.

Further, when the network device connected via the communication unit 130 is not operating normally, the purpose is to perform processing and instructions for normalizing the network device that is not operating normally. The details of the control unit 110 will be described later.

The information storage unit 120 is connected to the control unit 110, and is connected to the PoE power supply device 200 supplied with power by the power control device 100, each information of the main body connection device which is the router 400, and the subordinate of the PoE power supply device 200. This is for storing each information of the PoE connection device 300. Details of the information storage unit 120 will be described later.

The communication unit 130 is connected to the control unit 110, and is a communication device provided with a network interface such as a wired or wireless LAN (Local Area Network), and data sent from the control unit 110 is used as a network interface. It can be sent to the connected network device. Further, it is possible to receive the data transmitted from the network device connected to the network interface and send it to the control unit 110.

The power supply unit 140 is connected to the control unit 110, the power supply unit 150, the first power supply output unit 160, and the second power supply output unit 170, and receives power input from an external power source such as a commercial power supply via the power supply unit 150. This is for controlling the power supply to the first power supply output unit 160 and the second power supply output unit 170 according to the instruction from the control unit 110.

The power supply unit 150 is connected to the power supply unit 140, and is for supplying electric power input from an external power outlet such as a commercial power source to each unit included in the power supply control device 100.

The first power supply output unit 160 is connected to the power supply unit 140 and is for outputting the electric power supplied from the power supply unit 140. Specifically, the first power output unit 160 is a plug receiver of a wiring plug connector, and a plug of a wiring plug connector included in a PoE power supply device 200 or a router 400 to be connected is inserted. , Power is supplied to the main body connection device via the power supply control device 100.

The second power supply output unit 170 is connected to the power supply unit 140 and is for outputting the electric power supplied from the power supply unit 140. Specifically, the second power output unit 170 is a plug receiver of a wiring plug connector, and a plug of a wiring plug connector included in a PoE power supply device 200 or a router 400 to be connected is inserted. , Power is supplied to the main body connection device via the power supply control device 100.

FIG. 2 is a diagram showing the concept of the entire power supply control system to which the power supply control device is connected.
As shown in FIG. 2, the power supply control system includes a power supply control device 100, a PoE power supply device 200, a PoE connection device 300, and a router 400, and each device is connected by a network cable and is connected to the Internet 500. ..

The router 400 is used as a gateway for connecting to the Internet 500, and the plug of the wiring plug connector for supplying power to the router 400 is a first power supply included in the power control device 100. The router 400 is connected to the output unit 160 or the second power output unit 170 and receives power from the power control device 100 to operate the router 400.

Here, for convenience, it is assumed that the router 400 is connected to the first power output unit 160. In addition, the router 400 may be a gateway device, an ONU (Optical Network Unit), or other device.

Further, the router 400 is connected to the uplink side port of the PoE power supply device 200 via a network cable, and can communicate with the PoE power supply device 200 and the PoE connection device 300 connected under the PoE power supply device 200. can.

The power supply unit 150 included in the power supply control device 100 is connected to an external power supply 600 such as a commercial power supply, and can supply power to the main body connection device connected to the power supply control device 100. Further, the communication unit 130 included in the power supply control device 100 is connected to the downlink side port provided in the PoE power supply device 200 via a network cable, and each PoE connection device 300 and the Internet 500 via the PoE power supply device 200 and the router 400. Can be connected to.

The PoE power supply device 200 is a device having a communication relay function for relaying communication with a PoE connection device 300 connected under the control and a power supply function for supplying power to the PoE connection device 300 connected under the control. ..

The plug of the plug for wiring for supplying power to the PoE power supply device 200 is connected to the first power supply output unit 160 or the second power supply output unit 170 included in the power supply control device 100, and is connected to the power supply control device 100. The PoE power supply device 200 operates by receiving the power supply from. Here, for convenience, it is assumed that the PoE power supply device 200 is connected to the second power supply output unit 170.

Further, the PoE power supply device 200 includes a PoE power supply control unit 210 inside. The power supply to the PoE connection device 300 connected under the PoE power supply device 200 is controlled by the PoE power control unit 210, and the power cutoff and connection of each PoE connection device 300 are controlled by the control unit 210 as necessary. Controlled by.

The PoE connection device 300 is connected to the downlink side port of the PoE power supply device 200 via a network cable, and can be connected to each PoE connection device 300 and the Internet 500 via the PoE power supply device 200 and the router 400. ..

When the PoE connection device 300 is a device that supports PoE power supply, power can be supplied and information communication can be performed at the same time by using a twisted pair cable for the PoE power supply device 200.

The PoE connection device 300 is, for example, an access point 310, 320, a webcam 330, and an IP phone 340 that support PoE power supply, and is connected to the PoE power supply device 200 via a twisted pair cable to connect the PoE power supply device 200. It is connected to the network constructed through the power supply by the PoE power supply device 200.

As described above, the power control device 100, the PoE connection device 300, and the router 400 are connected to the PoE power supply device 200 via a network cable, and a network is constructed by each device to communicate information with each other. Can be done. Further, each device can be connected to the Internet 500 via the router 400.

Next, an outline for stable operation of the PoE power supply device 200 and the router 400 will be described.
In the PoE power supply device 200 to which a plurality of PoE connection devices 300 are connected in the network configuration as shown in FIG. 2, communication packets by each PoE connection device 300 are concentrated. Further, since the PoE power supply device 200 is connected to the Internet 500 via the router 400, communication packets are concentrated in the router 400 as well.

When the PoE power supply device 200 freezes due to the concentration of communication packets, the PoE connection device 300 connected under the PoE power supply device 200 is interrupted in power supply and information communication, and the PoE connection device 300 Since it will not function normally, it will not be possible to operate the entire constructed network in a stable manner.

Further, when the router 400 freezes due to the concentration of communication packets, the routing process performed by the router 400 and the process of connecting to the Internet 500 are delayed, and the router 400 is connected to the PoE power supply device 200 and the PoE power supply device 200. The PoE connection device 300 is not functioning normally. That is, in order to stably operate the network equipment connected to the constructed network, the PoE power supply device 200 and the router 400 must be stably operated.

First, the control unit 110 included in the power supply control device 100 monitors the normal operation of the network equipment connected via the communication unit 130, and determines whether or not the connected network equipment is operating normally.

Here, consider a case where the control unit 110 determines that the router 400 is not operating normally. The control unit 110 outputs instruction information to the power supply unit 140 to temporarily cut off the supply of electric power to the first power output unit 160 in order to operate the router 400 normally. As a result, the power supply unit 140 cuts off the supply of electric power to the first power supply output unit 160, and the router 400 is forcibly shut down.

After that, the control unit 110 outputs the instruction information for starting the supply of electric power to the first power output unit 160 again to the power supply unit 140 at a predetermined interval. As a result, the router 400 is restarted, and the power supply control device 100 can operate the router 400 normally.

Next, consider the case where the control unit 110 determines that the PoE power feeding device 200 is not operating normally. The control unit 110 outputs instruction information to the power supply unit 140 to temporarily cut off the power supply to the second power supply output unit 170 in order to operate the PoE power supply device 200 normally. As a result, the power supply unit 140 cuts off the supply of electric power to the second power supply output unit 170, and the PoE power supply device 200 is forcibly shut down.

After that, the control unit 110 outputs the instruction information for starting the supply of electric power to the second power output unit 170 again to the power supply unit 140 at a predetermined interval. As a result, the PoE power supply device 200 is restarted, and the power supply control device 100 can operate the PoE power supply device 200 normally.

The reason why the router 400 or the PoE power supply device 200 does not operate normally is that a logical failure due to data corruption or a physical failure that damages the device itself rarely occurs, and it freezes due to a sudden cause such as a large amount of communication packets flowing in. I often end up doing it.

In such a case, it is often the case that the router 400 or the PoE power supply device 200 is restarted to return to normal, and the power control device 100 temporarily supplies power to the router 400 or the PoE power supply device 200 as described above. The router 400 or the PoE power supply device 200 can be restarted and operated normally simply by disconnecting and reconnecting.

Next, consider a case where the control unit 110 determines that the access point 310, which is the PoE connection device 300 connected under the PoE power supply device 200, is not operating normally. The access point 310 can often be operated normally by restarting, similar to the cause of the router 400 or the PoE power feeding device 200 not operating normally.

However, since the access point 310 does not directly supply power by the power control device 100, the access point 310 cannot be directly restarted by temporarily cutting off and reconnecting the power supply by the power supply unit 140. ..

Therefore, in order to operate the access point 310 normally, the control unit 110 communicates with the PoE power supply device 200 via the communication unit 130, and temporarily accesses the PoE power supply control unit 210 included in the PoE power supply device 200. The instruction information for shutting off the power supply to the point 310 and restarting the power supply is output. As a result, the access point 310 can be restarted and operated normally.

Further, when the PoE connection device 300 does not automatically restart due to power cutoff and reconnection like a computer, the control unit 110 temporarily cuts off the power supply to the access point 310 to the PoE power supply control unit 210. It is also possible for the control unit 110 to transmit the specific command to the PoE connection device 300 via the communication unit 130 to output the instruction information to be output and later to remotely turn on the power of the computer by itself, such as a magic packet.

By constructing the power supply control system as described above, the power supply control device 100 monitors the normal operation of the PoE power supply device 200, the PoE connection device 300, and the router 400. Since the PoE power supply device 200 and the router 400 directly connected to the power supply control device 100 can be restarted, and the PoE connection device 300 can be restarted via the PoE power supply device 200, the normal operation rate can be increased. .. That is, even if the PoE power supply device freezes, the PoE power supply device and connected devices can be operated stably.

Further, by constructing the power supply control system as described above, the administrator can remotely control the power ON / OFF control of each device connected to the power supply control device 100.
Specifically, the administrator accesses the power supply control device 100 from the cloud of the Internet 500 via the router 400 as a gateway.

Since the control unit 110 included in the power control device 100 monitors the normal operation of the network device connected via the communication unit 130, it is possible to grasp the operation status and the power ON / OFF state of the PoE connection device 300. can.

Since the control unit 110 can control the power supply of the PoE connection device 300 via the PoE power supply device 200, the administrator transmits a power ON / OFF control signal of the specific PoE connection device 300 to the power control device 100. As a result, the control unit 110 can transmit the power ON / OFF control signal to the PoE power supply control unit 210 included in the PoE power supply device 200 by the received signal. As a result, the administrator can remotely control the power ON / OFF of the PoE connection device 300 in the network constructed by the power control system.

FIG. 3 is a block diagram showing details of the control unit.
As shown in FIG. 3, the control unit 110 includes a monitoring unit 111 and a power supply control unit 112.

The monitoring unit 111 is connected to the power supply control unit 112, the information storage unit 120, and the communication unit 130, and is connected to the PoE power supply device 200 and the PoE connection device 300 under the control of the PoE power supply device 200 via the communication unit 130. And for monitoring the normal operation of the router 400.

Specifically, the IP address or host name assigned to the PoE power supply device 200, the PoE connection device 300 connected under the PoE power supply device 200, and the router 400 is periodically monitored via the communication unit 130. Unit 111 sends a packet by executing the Ping command used to check network communication.

The IP address or host name required to execute the Ping command and transmit the packet is stored in the information storage unit 120, and the monitoring unit 111 refers to the stored information similar to the information storage unit 120 as necessary. Then, the Ping command can be executed to send the packet.

If the Ping command executed by the monitoring unit 111 has a normal response from the main unit connected device or PoE connected device 300, it is determined that the main unit connected device or PoE connected device 300 that has received a normal response is operating normally, and is normal. If there is no response, it can be determined that the main unit connected device or the PoE connected device 300 that did not respond normally is not operating normally.

The determination of whether or not the Ping command executed by the monitoring unit 111 has a normal response is determined, for example, by a specified response to the number of transmissions set for each main unit connected device or PoE connected device 300 stored in the information storage unit 120. It is judged by whether or not the number is satisfied.

Further, the monitoring of normal operation by the monitoring unit 111 is determined in advance not only by whether or not a response can be made by executing the Ping command, but also by the PoE power supply device 200, the PoE connection device 300 connected under the PoE power supply device 200, and the router 400. A setting called a heartbeat that sends short data to the monitoring unit 111 at regular intervals is set, and depending on whether or not the heartbeat transmitted from the main unit connected device or PoE connected device 300 can be received without interruption, the main unit connected device or PoE It is possible to determine whether or not the connected device 300 is operating normally.

Specifically, when the monitoring unit 111 receives the heartbeat of the main body connection device or the PoE connection device 300 via the communication unit 130 without interruption, the main body connection device or the PoE connection device 300 operates normally. When the heartbeat by the main body connection device or the PoE connection device 300 is interrupted, it can be determined that the main body connection device or the PoE connection device 300 is not operating normally.

The monitoring unit 111 periodically monitors the connected main unit connection device or PoE connection device 300, and when it is determined that the main unit connection device or PoE connection device 300 is not operating normally, the main unit connection that is not operating normally Detailed information of the device or the PoE connection device 300 can be transmitted to the connected power supply control unit 112.

The monitoring unit 111 monitors the normal operation of the PoE power supply device 200, the PoE connection device 300 connected under the PoE power supply device 200, and the router 400 via the communication unit 130, and determines that the operation is not normal. In this case, it is possible to provide a warning means for notifying the administrator of each device that the device is not operating normally by using the information stored in the information storage unit 120.

For example, the administrator may be notified by e-mail based on the information stored in the information storage unit 120, or the warning lamp provided in the power control device 100 may be turned on to notify the error.

Further, if the PoE connection device 300 connected to the PoE power supply device 200 is a device that does not support PoE power supply, the power supply control of the PoE connection device 300 by the PoE power supply control unit 210 cannot be performed, that is, the operation is performed by restarting. Can not be normalized, so if it is determined that it is not operating normally, a warning email can be sent to the administrator immediately.

The power control unit 112 is connected to the monitoring unit 111, the information storage unit 120, the communication unit 130, and the power supply unit 140, and detailed information on the main unit connection device or the PoE connection device 300 that is not operating normally and is received from the monitoring unit 111. The power control process of the main body connection device or the PoE connection device 300 is performed.

Specifically, the power control unit 112 controls the power supply of the non-normally operating main body-connected device or PoE-connected device 300 based on the detailed information of the non-normally operating main body-connected device or PoE-connected device 300 received from the monitoring unit 111. The power supply control process is performed by determining whether it is a main body connection device directly connected to the device 100 or a PoE connection device 300 connected to the PoE power supply device 200.

More specifically, when the device that is not operating normally is the PoE power supply device 200 or the router 400 that is directly supplied with power from the power control device 100, the first power supply output unit 160 or the second power supply unit 160 by the power supply unit 140 is used. The power supply control unit 112 outputs the instruction information for cutting off and reconnecting the power supply to the power supply output unit 170 to the power supply unit 140. As a result, the power supply unit 140 can cut off and reconnect the power supply to the corresponding main body connected device, and restart the main body connected device that is not operating normally.

If the device that is not operating normally is the PoE connection device 300 that is supplied with power from the PoE power supply device 200, the PoE power control unit 210 provides instruction information for cutting off and reconnecting the power supply to the PoE connection device 300. , The power supply control unit 112 outputs to the PoE power supply control unit 210.

As a result, the PoE power supply control unit 210 can cut off and reconnect the power supply to the corresponding PoE connection device 300, and restart the PoE connection device 300 that is not operating normally.

Further, the power supply control unit 112 is connected to the PoE power supply device 200 under the control of the PoE power supply device 200 by the information stored in the information storage unit 120 by a remote instruction from the administrator connected to the power supply control device 100 via the Internet 500. In order to control the power ON / OFF of the device 300, a power ON / OFF control signal can be transmitted to the PoE power control unit 210 included in the PoE power supply device 200. As a result, the administrator can remotely control the power ON / OFF of the PoE connection device 300 in the network constructed by the power control system.

FIG. 4 is a block diagram showing details of the information storage unit.
As shown in FIG. 4, the information storage unit 120 includes a main body connection device information storage unit 121 and a PoE connection device information storage unit 122.

The main body connected device information storage unit 121 is directly connected to the first power output unit 160 or the second power output unit 170 included in the power control device 100, and detailed information of the main body connected device to which power is supplied by the power control device 100 can be obtained. It is remembered.

Specifically, information for identifying the router 400 connected to the first power output unit 160 and the PoE power supply device 200 connected to the second power output unit 170 on the network is stored. Details of the stored information will be described later.

The PoE connection device information storage unit 122 is connected under the control of the PoE power supply device 200, and stores detailed information of the PoE connection device 300 to which power is supplied by the PoE power supply device 200.

Specifically, information for identifying the access points 310, 320, the webcam 330, and the IP telephone 340 connected under the PoE power supply device 200 on the network is stored. Details of the stored information will be described later.

FIG. 5 is a diagram showing an example of a data structure of main body connected device information stored in the main body connected device information storage unit.
As shown in FIG. 5, the main unit connected device information is provided with columns for "key", "output unit information", "main unit connected device information", and "monitoring information", and the "output unit" is used as a "key". A "code" column is provided, and "output section name", "OFF delay", "re-input", "ON delay", "at startup", and "interlocking" columns are provided as "output section information". As "main unit connected device information", each column of "main unit connected device name", "MAC address", and "IP address" is provided, and as "monitoring information", "Ping transmission interval", "transmission", There are columns for "No answer", "Action", and "Emergency contact". The information arranged vertically in each column is associated with each other to form a record of detailed information about the devices connected to the main unit.

In the "output unit code" column, a character string unique to the power output unit, which is identification information for identifying the power output unit, is set.
In the "output unit name" column, a name unique to the power output unit for identifying the power output unit of the first power output unit 160 or the second power output unit 170 is set. In the "OFF delay" column, the delay time when the power output unit of the first power output unit 160 or the second power output unit 170 stops the power output is set. In the "re-on" column, the time from when the power output unit of the first power output unit 160 or the second power output unit 170 stops the power output to when it starts is set. In the "ON delay" column, set the time until the power output unit of the first power output unit 160 or the second power output unit 170 starts power output. In the "startup" column, the time until the power output is started when the power supply control device 100 is started is set. In the "interlocking" column, the "output code" of the power output unit of the first power output unit 160 or the second power output unit 170 that interlocks the operations is set.

In the column of "main unit connected device name", a name unique to the main body connected device for identifying a connected device that is directly connected to the power control device 100 and to which power is supplied by the power control device 100 is set. In the "MAC address" column, a character string unique to the main unit connected device for identifying the main unit connected device is set. In the "IP address" column, a numerical value unique to the main body connected device for identifying the main body connected device is set, which is assigned by the router 400.

In the "Ping transmission interval" column, the monitoring unit 111 executes the Ping command, and a numerical value which is the transmission interval of the ICMP echo request packet is set. In the "Transmission" column, the Ping command is executed to determine whether or not the device on which the monitoring unit 111 has executed the Ping command is operating normally, and the number of times the ICMP echo request packet is transmitted is set. There is. In the "No answer" column, among the number of transmissions set in "Transmission", the number of non-responses for determining that the monitoring unit 111 is not operating normally is set. In the "operation" column, an operation to be performed after determining that the monitoring unit 111 is not operating normally is set. In the "emergency contact" column, a contact to be notified when it is determined that the monitoring unit 111 is not operating normally is set.

As a specific example of FIG. 5, in the output unit code 001, the name of the first output unit is set, and when the first power output unit 160 stops the power output, the power output is stopped without delay, and the first The power is turned on 10 seconds after the power output unit 160 stops the power output, the power output is started 1 second after the power is turned on, and the first power output unit 160 is linked with the second power output unit 170. Works without.

Further, a router 400 named a router to which the MAC address "AA: AA: AA: AA: AA: AA" and the IP address "192.168.0.1" is assigned is connected to the first power output unit 160. Has been done.

Further, when the monitoring unit 111 executes the Ping command to the router 400, the ICMP echo request packet is transmitted every minute, and 10 of the transmitted ICMP echo request packets 10 are not responded, the router 400 receives no response. It is determined that the router 400 is not operating normally, the router 400 is restarted according to the instruction of the power supply control unit 112, and the router 400 is addressed to the emergency contact "info@***.co.jp". The monitoring unit 111 notifies the administrator of an email indicating that the operation was not normal.

FIG. 6 is a diagram showing an example of a data structure of PoE connected device information stored in the PoE connected device information storage unit.
As shown in FIG. 6, the PoE connected device information is provided with columns for "key", "connected device information", "monitoring information", and "power control information", and "PoE connected device" is used as a "key". A "code" column is provided, and "connected device name", "MAC address", and "IP address" columns are provided as "connected device information", and "Ping transmission interval" and "Ping transmission interval" and "Ping transmission interval" are provided as "monitoring information". Each column of "Send", "No answer", "Operation", "Emergency contact", and "Monitoring status" is provided, and "Power status", "Power schedule", and "Control method" are provided as "Power control information". , And "PoE compatible" columns are provided. The information arranged vertically in each column is associated with each other to form a record of detailed information about the PoE connected device.

In the "PoE connection device code" column, a character string unique to the PoE connection device 300, which is identification information for identifying the PoE connection device 300 connected under the PoE power supply device 200, is set.

In the "Connected device name" column, a name unique to the PoE connected device 300 for identifying the PoE connected device 300 connected under the PoE power feeding device 200 is set. In the "MAC address" column, a character string unique to the PoE connection device 300 for identifying the PoE connection device 300 connected under the control of the PoE power supply device 200 is set. In the "IP address" column, a numerical value unique to the PoE connection device 300 for identifying the PoE connection device 300 assigned by the router 400 and connected under the control of the PoE power supply device 200 is set.

In the "Ping transmission interval" column, the monitoring unit 111 executes the Ping command, and a numerical value which is the transmission interval of the ICMP echo request packet is set. In the "Transmission" column, the Ping command is executed to determine whether or not the device on which the monitoring unit 111 has executed the Ping command is operating normally, and the number of times the ICMP echo request packet is transmitted is set. There is. In the "No answer" column, among the number of transmissions set in "Transmission", the number of non-responses for determining that the monitoring unit 111 is not operating normally is set. In the "operation" column, an operation to be performed after determining that the monitoring unit 111 is not operating normally is set. In the "emergency contact" column, a contact to be notified when it is determined that the monitoring unit 111 is not operating normally is set. In the "monitoring state" column, the current state in which the monitoring unit 111 is monitoring whether or not it is operating normally is set.

In the "Power status" column, the power status of the PoE connection device 300 connected under the PoE power supply device 200 is set, and "ON" is set when it is operating and "OFF" when it is not operating. Set. In the "power supply schedule" column, the operation schedule of the PoE connection device 300 connected under the control of the PoE power supply device 200 is set. In the "control method" column, the control method of the PoE connection device 300 connected under the PoE power supply device 200 is set, and it can be controlled by, for example, power cutoff / connection, or a specific command such as a magic packet. It is set whether it is necessary to start by. In the "PoE compatible" column, it is set whether or not the PoE connection device 300 connected under the PoE power supply device 200 is a PoE compatible device. If it is a PoE compatible device, "OK", the PoE compatible device If not, "impossible" is set.

As a specific example of FIG. 6, in the PoE connection device code, the name AP is assigned the MAC address "CC: CC: CC: CC: CC: CC" and the IP address "192.168 ...." Access point 310 is connected.

Further, when the monitoring unit 111 executes the Ping command to the access point 310, the ICMP echo request packet is transmitted every minute, and 5 of the transmitted ICMP echo request packets 5 are not responded. , It is determined that the access point 310 is not operating normally, and the power supply control unit 112 transmits a control signal to the PoE power supply control unit 210 included in the PoE power supply device 200, so that the access point 310 is restarted. , The administrator is notified by the monitoring unit 111 that the access point 310 was not operating normally to the emergency contact "info @ ...", and the current monitoring status by the monitoring unit 111 is normal. It has been judged.

The current power state of the access point 310 is "ON", the power is turned on at 6:00 AM, the control method of the access point 310 is controlled by power cutoff / connection, and the access point 310 is a PoE compatible device. ..

FIG. 7 is a flowchart showing a process from the start of monitoring by the power supply control device to the control of the power supply. Hereinafter, the process shown in FIG. 7 will be described along with the step numbers.
[Step S11] The power supply control device 100 confirms the operation of the main body connection device and the PoE connection device 300. Specifically, the monitoring unit 111 has a set interval for a specific device among the main body connection device and the PoE connection device 300 stored in the main body connection device information storage unit 121 and the PoE connection device information storage unit 122. The monitoring unit 111 executes the Ping command, and the ICMP echo request packet is transmitted by the monitoring unit 111.

If the specific main unit connection device and the PoE connection device 300 are operating normally and respond, an echo response packet is returned. Therefore, the monitoring unit 111 receives the echo response packet and counts that there is a response.

Further, since the echo response packet is not returned unless the specific main unit connection device and the PoE connection device 300 are operating normally and respond, the monitoring unit 111 does not receive the echo response packet and counts as no response. ..

Alternatively, the heartbeat is set to be transmitted to the main unit connected device and the PoE connected device at a predetermined cycle, and the main unit connected device and the PoE connected device operate normally depending on whether the monitoring unit 111 receives the heartbeat periodically. To confirm.

[Step S12] The power supply control device 100 determines whether or not the main body connection device and the PoE connection device are operating normally. Specifically, the monitoring unit 111 executes the Ping command, and the number of counts of no response of the echo response packet to the number of transmitted echo request packets is previously stored in the main unit connected device information storage unit 121 and the PoE connected device information storage unit 122. The monitoring unit 111 determines whether or not the main unit connected device and the PoE connected device are operating normally depending on whether or not the stored values set in "transmission" and "no answer" are satisfied.

Alternatively, when the monitoring unit 111 receives the heartbeat transmission set in the main unit connected device and the PoE connected device and the monitoring unit 111 receives the heartbeat without interruption, it means that the device is operating normally. When the determination is made and the heartbeat is interrupted, the monitoring unit 111 determines that the device is not operating normally.

When the power supply control device 100 determines that the main body connection device or the PoE connection device is operating normally, the process proceeds to step S11, and if the main body connection device or the PoE connection device is not operating normally, the power control device When 100 determines, the process proceeds to step S13.

[Step S13] The power supply control device 100 controls the power supply to the main body connection device or the PoE connection device 300 that is not operating normally. Specifically, the power supplied to the main unit connected device or the PoE connected device 300 that is not operating normally is temporarily cut off, and the power is supplied by reconnecting the main unit connected device or the PoE connected device 300. To restart. As a result, the main unit connected device or the PoE connected device will operate normally.

FIG. 8 is a flowchart showing a process from determining that the power supply control device is not operating normally to performing power supply control. Hereinafter, the process shown in FIG. 8 will be described along with the step numbers.

[Step S21] The power supply control device 100 determines whether the device that is not normally operating is the main body connection device or the device that is not normally operating is the PoE connection device 300.

Specifically, the power control unit 112 refers to the main unit connected device information storage unit 121 and the PoE connected device information storage unit 122 from the IP address in which the specified number of echo response packets are not returned or the MAC address in which the heartbeat is interrupted. Then, the power supply control unit 112 determines whether the device that is not operating normally is a device connected to the main body or a device connected to PoE.

When the power control unit 112 determines that the device that is not operating normally is a device connected to the main unit, the process proceeds to step S22, and the power control unit 112 determines that the device that is not operating normally is a PoE connected device. When the case, the process proceeds to step S23.

[Step S22] The power supply control device 100 controls the power supply. Specifically, in order to normally operate the main unit connected device that is not operating normally determined in step S21, the power control unit 112 sends the power supply unit 140 to the first power output unit 160 or the second power output unit 170. The power supply control unit 112 outputs instruction information to the power supply unit 140 to temporarily cut off the power supply of the power supply unit and then restart the power supply.

[Step S23] The power supply control device 100 creates a control command. Specifically, in order to normalize the PoE connection device 300 that is not operating normally as determined in step S21, the power control unit 112 connects the PoE connection device 300 that is not operating normally by the PoE power control unit 210. The power control unit 112 creates a control command for temporarily shutting off the power supply and then restarting the power supply.

[Step S24] The power supply control device 100 transmits a control command. Specifically, the power control unit 112 controls the control command created in step S23 to the PoE power supply control unit 210 of the PoE power supply device 200 with reference to the main unit connected device information stored in the information storage unit 120. Send a command.

[Step S25] The PoE power supply device 200 receives a control command. Specifically, the PoE power supply control unit 210 included in the PoE power supply device 200 receives the control command transmitted by the power supply control unit 112 in step S24.

[Step S26] The PoE power supply device 200 controls the power supply. Specifically, the PoE power supply control unit 210 executes the control command created and transmitted by the power supply control unit 112 in steps S23 and S24, so that the PoE power supply control unit 210 controls the power supply.

More specifically, when the PoE power supply control unit 210 executes a control command, the power supply to the PoE connection device 300 that is not operating normally by the PoE power supply control unit 210 is temporarily cut off, and then the power supply is stopped. By restarting, the PoE connection device 300 that is not operating normally is restarted.

FIG. 9 is a flowchart showing a process from receiving a power ON / OFF control signal for the administrator to remotely control a PoE connected device in the network by the power control device to performing power ON / OFF control. .. Hereinafter, the process shown in FIG. 9 will be described along with the step numbers.

[Step S31] The power supply control device 100 receives a power ON / OFF control signal from the administrator. Specifically, the administrator accesses the power control device 100 from the cloud of the Internet 500 via the router 400 as a gateway, and controls the power ON / OFF control signal for remote control transmitted by the administrator. Unit 112 receives.

[Step S32] The power supply control device 100 creates a control command. Specifically, the power supply control unit 112 creates a control command for cutting off or connecting the power supply to the target PoE connection device 300 by the power ON / OFF control signal received in step S31.

[Step S33] The power supply control device 100 transmits a control command. Specifically, the power control unit 112 sends the control command created in step S32 to the PoE power supply control unit 210 of the PoE power supply device 200 with reference to the main unit connected device information stored in the information storage unit 120. To send.

[Step S34] The PoE power supply device 200 receives a control command. Specifically, the PoE power supply control unit 210 included in the PoE power supply device 200 receives the control command transmitted by the power supply control unit 112 in step S33.

[Step S35] The PoE power supply device 200 controls the power supply. Specifically, the PoE power supply control unit 210 executes the control command created and transmitted by the power supply control unit 112 in steps S32 and S33, so that the PoE power supply control unit 210 controls the power supply.

More specifically, the PoE power supply control unit 210 executes a control command to cut off or connect the power supply to the target PoE connection device 300 instructed by the administrator, thereby causing the administrator to remotely power the power supply. ON / OFF control can be performed.

As described above, the power supply control device 100 is a device that only monitors and controls the power supply, and since a large amount of packets are not concentrated, stable operation can be performed. With this stable power supply control device 100, the PoE power supply device 200 and the router 400, in which a large amount of packets are likely to be concentrated, can be stably operated normally.

[Second Embodiment]
Next, a second embodiment of the present invention will be described. The power supply control device of the present embodiment is substantially the same as the configuration shown in the first embodiment except that the number of power supply output units is different. Therefore, the same components as those in the first embodiment will be designated by the same reference numerals, and the description thereof will be omitted as appropriate.

FIG. 10 is a block diagram showing details of the power supply control device according to the second embodiment.
As shown in FIG. 10, the power supply control device 100 includes a control unit 110, an information storage unit 120, a communication unit 130, a power supply unit 140, a power supply unit 150, a first power supply output unit 160, a second power supply output unit 170, and a first power supply control device 100. (3) A power output unit 180 is provided.

The power supply control device 100 controls the power input from an external power source such as a commercial power source via the power supply unit 150, and is connected to the first power supply output unit 160, the second power supply output unit 170, and the third power supply output unit 180. A device for stable operation of the PoE power supply devices 200 and 700 (not shown), the main body connection device which is a router 400, and the PoE connection device 300 (not shown) connected under the PoE power supply devices 200 and 700. be.

The power supply unit 140 is connected to the control unit 110, the power supply unit 150, the first power supply output unit 160, the second power supply output unit 170, and the third power supply output unit 180, and is connected to an external power source such as a commercial power source via the power supply unit 150. This is for controlling the power supply to the first power supply output unit 160, the second power supply output unit 170, and the third power supply output unit 180 according to the instruction from the control unit 110.

The third power supply output unit 180 is connected to the power supply unit 140 and is for outputting the electric power supplied from the power supply unit 140. Specifically, the third power output unit 180 is a plug receiver of a wiring plug connector, and the plug of the wiring plug connector included in the PoE power supply devices 200 and 700, the router 400, etc. to be connected is It is inserted and power is supplied to the main body connection device via the power supply control device 100.

FIG. 11 is a diagram showing the concept of the entire power supply control system to which the power supply control device is connected.
As shown in FIG. 11, the power supply control system includes a power supply control device 100, a PoE power supply device 200 and 700, a PoE connection device 300, and a router 400, and each device is connected by a network cable and connected to the Internet 500. ing.

The power supply unit 150 included in the power supply control device 100 is connected to an external power supply 600 such as a commercial power supply, and can supply power to the main body connection device connected to the power supply control device 100. Further, the communication unit 130 included in the power supply control device 100 is connected to the downlink side port provided in the PoE power supply device 200 via a network cable, and each PoE connection device 300 and the PoE connection device 300 via the PoE power supply devices 200 and 700 and the router 400. You can connect to the Internet 500.

The PoE power supply devices 200 and 700 are devices having a communication relay function for relaying communication with the PoE connection device 300 connected under the control and a power supply function for supplying power to the PoE connection device 300 connected under the control. Is.

The plug of the plug for the wiring plug for supplying power to the PoE power supply devices 200 and 700 is the first power supply output unit 160, the second power supply output unit 170, or the third power supply output unit included in the power supply control device 100. The PoE power supply devices 200 and 700 operate by being connected to the unit 180 and receiving power supply from the power supply control device 100. Here, for convenience, it is assumed that the PoE power supply device 200 is connected to the second power supply output unit 170 and the PoE power supply device 700 is connected to the third power supply output unit 180.

Further, the PoE power supply device 700 includes a PoE power supply control unit 710 inside. The power supply to the PoE connection device 300 connected under the PoE power supply device 700 is controlled by the PoE power control unit 710, and the power cutoff and connection are controlled for each PoE connection device 300 as necessary. It is controlled by unit 710.

The PoE connection device 300 is connected to the downlink side port provided in the PoE power supply devices 200 and 700 via a network cable, and is connected to each PoE connection device 300 and the Internet 500 via the PoE power supply device 200 and the router 400. Can be done.

When the PoE connection device 300 is a device that supports PoE power supply, power can be supplied and information communication can be performed at the same time by using a twisted pair cable for the PoE power supply device 200.

The PoE connection device 300 is, for example, an access point 310, 350, 360, a webcam 330, 380, an IP phone 340, 370, and a personal computer 390 that support PoE power supply, and the PoE power supply devices 200 and 700 via a twisted pair cable. By being connected to, the power is supplied by the PoE power supply devices 200 and 700, and the network is connected to the network constructed via the PoE power supply devices 200 and 700.

Further, the downlink side port of the PoE power supply device 200 and the uplink side port of the PoE power supply device 700 are connected by a network cable, and the PoE connection device 300 connected under the control of the PoE power supply device 200 and the PoE connection device 300. It is possible to communicate with each other with the PoE connection device 300 connected under the control of the PoE power supply device 700.

As described above, the power control device 100, the PoE connection device 300, the router 400, and the PoE power supply device 700 are connected to the PoE power supply device 200 via a network cable, and a network is constructed by each device to provide information to each other. Can communicate with each other. Further, each device can be connected to the Internet 500 via the router 400.

Next, an outline for stable operation of the PoE power supply device 200 and the router 400 will be described.
In the PoE power supply device 200 and 700 to which a plurality of PoE connection devices 300 are connected in the network configuration as shown in FIG. 11, communication packets by each PoE connection device 300 are concentrated. Further, since the PoE power supply devices 200 and 700 are connected to the Internet 500 via the router 400, communication packets are concentrated in the router 400 as well.

When the PoE power supply devices 200 and 700 freeze due to the concentration of communication packets, the PoE connection device 300 connected under the PoE power supply devices 200 and 700 is interrupted in power supply and information communication, and PoE. Since the connected device 300 does not function normally, the entire constructed network cannot be operated stably.

Further, if the router 400 freezes due to the concentration of communication packets, the routing process performed by the router 400 and the process of connecting to the Internet 500 are delayed, and the PoE power supply device 200 and the PoE power supply devices 200 and 700 are subordinated. The PoE connection device 300 connected to the device does not function normally. That is, in order to stably operate the network equipment connected to the constructed network, the PoE power supply device 200 and the router 400 must be stably operated.

First, the control unit 110 included in the power supply control device 100 monitors the normal operation of the network equipment connected via the communication unit 130, and determines whether or not the connected network equipment is operating normally.

Next, consider the case where the control unit 110 determines that the PoE power feeding device 700 is not operating normally. The control unit 110 outputs instruction information to temporarily cut off the power supply to the third power output unit 180 to the power supply unit 140 in order to operate the PoE power supply device 700 normally. As a result, the power supply unit 140 cuts off the supply of electric power to the third power supply output unit 180, and the PoE power supply device 700 is forcibly shut down.

After that, the control unit 110 outputs the instruction information for starting the supply of electric power to the third power output unit 180 again to the power supply unit 140 at a predetermined interval. As a result, the PoE power supply device 700 is restarted, and the power supply control device 100 can normally operate the PoE power supply device 700.

Next, consider a case where the control unit 110 determines that the personal computer 390, which is the PoE connection device 300 connected under the PoE power supply device 700, is not operating normally. In many cases, the personal computer 390 can be normally operated by restarting the router 400 or the PoE power supply device 200, which is the same as the cause of the malfunction of the router 400 or the PoE power supply device 200.

However, since the personal computer 390 does not directly supply power by the power control device 100, the access point 310 cannot be directly restarted by temporarily cutting off and reconnecting the power supply by the power supply unit 140.

Therefore, in order to operate the personal computer 390 normally, the control unit 110 communicates with the PoE power supply device 700 via the communication unit 130, and temporarily connects the personal computer 390 to the PoE power supply control unit 710 included in the PoE power supply device 700. Outputs instruction information to cut off the power supply to and start the power supply again. After that, the control unit 110 transmits a specific command for the computer to turn on the power by itself, such as a magic packet, to the personal computer 390 via the communication unit 130. As a result, the personal computer 390 can be restarted and operated normally.

By constructing the power supply control system as described above, the power supply control device 100 monitors the normal operation of the PoE power supply devices 200 and 700, the PoE connection device 300, and the router 400, and if it is not operating normally, it is necessary. Therefore, the PoE power supply devices 200 and 700 directly connected to the power supply control device 100 and the router 400 can be restarted, and the PoE connection device 300 can be restarted via the PoE power supply device 200. Can be raised. That is, even if the PoE power supply device freezes, the PoE power supply device and connected devices can be operated stably.

1, 200, 700 PoE power supply device 10 IP device diagnostic unit 11 Uplink side port 12 IP packet relay control unit 13 Downlink side PoE port 14 Power supply control unit 15 PoE power supply unit 16 Reference data storage unit 20 IP network 30 IP device 100 Power control device 110 Control unit 111 Monitoring unit 112 Power control unit 120 Information storage unit 121 Main unit connection device Information storage unit 122 PoE connection device information storage unit 130 Communication unit 140 Power supply unit 150 Power supply unit 160 First power supply output unit 170 Second power supply Output unit 180 Third power output unit 210, 710 PoE power control unit 300 PoE connection device 310, 320, 350, 360 Access point 330, 380 Web camera 340, 370 IP phone 390 PC 400 Router 500 Internet 600 External power supply

Claims (11)

Power control that controls the power supply to the PoE power supply device including the PoE power supply control means for controlling the PoE power supply to the connected device connected under the control and the communication relay means for relaying the communication with the connected device. In the device
A first power supply output means for outputting electric power to be input to the PoE power supply device, and
A communication means for communicating with the PoE power supply device and
A monitoring means for monitoring the normal operation of the PoE power supply device and the connected device via the communication means, and
When the monitoring means determines that the PoE power supply device is not normal, the PoE power supply device recovery means for recovering the PoE power supply device and the PoE power supply device recovery means.
When the monitoring means determines that the connected device is not normal, the connected device recovery means for recovering the connected device and the connected device recovery means.
A power control device characterized by being provided with. The PoE power supply device recovery means is
The power supply control device according to claim 1, wherein the PoE power supply device is restarted by temporarily shutting off the power supply to the first power supply output means and reconnecting the power supply. The connected device recovery means is
The power supply control according to claim 1, wherein the PoE power supply control means temporarily shuts off the PoE power supply to the connected device to be restored and outputs an instruction signal for reconnection to the PoE power supply control means via the communication means. Device. The connected device recovery means is
The PoE power supply control means is restarted by temporarily shutting off the PoE power supply to the connected device to be restored and transmitting a magic packet to the connected device to be restored via the communication means. The power supply control device according to claim 1. The monitoring means
A Ping command execution unit that periodically executes a Ping command to the PoE power supply device and the connected device,
When there is no response from the PoE power supply device and connected device that executed the Ping command the specified number of times, the Ping command determination unit that determines that the PoE power supply device or connected device that does not respond is not normal, and the Ping command determination unit.
The power supply control device according to claim 1, further comprising. The monitoring means
A heartbeat signal receiving means for receiving a heartbeat signal periodically transmitted by the PoE power supply device and the connected device, and
When the heartbeat signal is interrupted, a heartbeat determination unit that determines that the PoE power supply device or connected device whose heartbeat signal is interrupted is not normal, and
The power supply control device according to claim 1, further comprising. A notification means that notifies the administrator of the PoE power supply device or the connected device of a warning when the monitoring means determines that the PoE power supply device or the connected device is not normal.
The power supply control device according to claim 1, further comprising. A second power output means for outputting power for input to a gateway device connected to the PoE power supply device from an upper layer,
The power supply control device according to claim 1, further comprising. Power control that controls the power supply to the PoE power supply device including the PoE power supply control means for controlling the PoE power supply to the connected device connected under the control and the communication relay means for relaying the communication with the connected device. In the method
The first power supply output means outputs the power for inputting to the PoE power supply device in the output step.
A step in which the communication means communicates with the PoE power supply device,
A step in which the monitoring means monitors the normal operation of the PoE power supply device and the connected device via the communication means.
A step of recovering the PoE power supply device when the monitoring means determines that the PoE power supply device is not normal, and a step of recovering the PoE power supply device.
When the connected device recovery means determines that the connected device is not normal by the monitoring means, the step of recovering the connected device and the step of recovering the connected device.
A power supply control method comprising. Power control that controls the power supply to the PoE power supply device including the PoE power supply control means for controlling the PoE power supply to the connected device connected under the control and the communication relay means for relaying the communication with the connected device. In the program
Computer,
A first power output means for outputting electric power to be input to the PoE power supply device,
A communication means for communicating with the PoE power supply device,
A monitoring means for monitoring the normal operation of the PoE power supply device and the connected device via the communication means,
A PoE power supply recovery means for recovering the PoE power supply device when the monitoring means determines that the PoE power supply device is not normal.
A connected device recovery means for recovering the connected device when the monitoring means determines that the connected device is not normal.
A power control program characterized by functioning as. PoE power supply control means that controls PoE power supply to connected devices connected under the control,
A communication relay means for relaying communication with the connected device,
PoE power supply device equipped with
A first power supply output means for outputting electric power to be input to the PoE power supply device, and
A communication means for communicating with the PoE power supply device and
A monitoring means for monitoring the normal operation of the PoE power supply device and the connected device via the communication means, and
When the monitoring means determines that the PoE power supply device is not normal, the PoE power supply device recovery means for recovering the PoE power supply device and the PoE power supply device recovery means.
When the monitoring means determines that the connected device is not normal, the connected device recovery means for recovering the connected device and the connected device recovery means.
Power control unit equipped with
A power control system characterized by being equipped with.

Images