JP2018054365A - Power management system and power management method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to appropriately manage an amount of electric power used by a radio base station and supplied by a building or the like when a communication common carrier installs the base station of a radio communication network on a roof floor or the like of the building.SOLUTION: A power management system includes: a power amount acquisition unit for acquiring an amount of electric power supplied to a radio device and an antenna included in a radio base station; and a power amount transmission unit for transmitting an amount of electric power to a predetermined destination every predetermined period.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a power management system and a power management method.

It has been known that a telecommunications carrier installs a base station of a wireless communication network on the rooftop of a building (for example, see Patent Document 1).
[Prior art documents]
[Patent Literature]
[Patent Document 1] Japanese Patent Application Laid-Open No. 2002-141855

  It is desirable that the amount of power supplied to the radio base station from a building or the like and used by the radio base station can be appropriately managed.

  According to a first aspect of the present invention, a power management system is provided. The power management system may include a power amount acquisition unit that acquires a power amount of power supplied to a radio and an antenna included in the radio base station. The power management system may include a power amount transmission unit that transmits a power amount for each predetermined period to a predetermined destination.

  The power management system includes: an electricity bill calculation unit that calculates an electricity bill for the power supplied to the radio and the antenna based on the amount of power obtained by the power amount obtaining unit; and a process for paying the electricity bill. A payment processing execution unit may be further included. The power management system may further include a notice creation unit that creates a payment notice to notify that the payment process has been executed. The power management system is configured to calculate an electricity bill for power supplied to the radio and the antenna based on the amount of power obtained by the electricity amount obtaining unit, and a calculation by the electricity bill calculating unit. It may further include a calculation document creation unit that creates a calculation document including the result.

  The power management system further includes a traffic amount acquisition unit that acquires a communication traffic amount of communication executed by the wireless device, and a traffic amount output unit that outputs the communication traffic amount and the power amount in association with each other. It's okay. The power management system may further include an error information acquisition unit that acquires error information indicating an error that has occurred in the wireless device, and an error information output unit that outputs the error information and the power amount in association with each other. . The power management system includes a temperature acquisition unit that acquires a temperature detected by a temperature sensor arranged in a space where the wireless device is installed, and a temperature that outputs the temperature and the amount of power in association with each other. And an output unit. The power management system may further include an operating status acquisition unit that acquires an operating status of a cooling device that cools the space in which the wireless device is installed, and the temperature output unit indicates the operating status of the cooling device. Furthermore, you may output in association. The power amount acquisition unit may acquire respective power amounts of single-phase power and three-phase power supplied to the radio base station.

  According to a second aspect of the present invention, a power management method is provided. The power management method may include a power amount acquisition step of acquiring a power amount of power supplied to a radio and an antenna included in the radio base station. The power management method may include a power amount transmission step of transmitting a power amount for each predetermined period to a predetermined destination.

  It should be noted that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a sub-combination of these feature groups can also be an invention.

1 schematically shows an example of a power management system 10. 1 schematically shows an example of a power monitoring unit 100. An example of functional composition of electric power monitoring unit 100 is shown roughly. An example of functional composition of power management device 200 is shown roughly. An example of the computer 1000 which functions as the power management apparatus 200 is shown schematically.

  Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.

  FIG. 1 schematically illustrates an example of a power management system 10. The power management system 10 manages the power supplied to the radio base station 20. The radio base station 20 is installed, for example, on the roof of the building 30 and receives power supply from the building 30.

  The radio base station 20 includes a radio device 22 and an antenna 24. The radio device 22 may be installed in the installation space 40. The installation space 40 is a room of the building 30, for example. The installation space 40 may be a rack such as a so-called system rack or MISC rack. Other electrical equipment may be installed in the installation space 40. For example, an electric lamp is installed in the installation space 40. For example, a cooling device that cools the inside of the installation space 40 is installed in the installation space 40.

  The radio device 22 may be supplied with three-phase power. The antenna 24 may be supplied with three-phase power. The lamp may be supplied with single-phase power. The cooling device may be supplied with single layer power. The cooling device may be supplied with three-phase power.

  The power management system 10 may include a power monitoring unit 100. The power management system 10 may include a power management device 200.

  The power monitoring unit 100 acquires the amount of power supplied to the radio base station 20. The power monitoring unit 100 acquires the amount of power supplied to the radio base station 20 from, for example, a power meter arranged on the distribution board of the power management system 10. The power monitoring unit 100 may acquire the amount of three-phase power supplied to the radio base station 20. The power monitoring unit 100 may acquire the amount of single-phase power supplied to the radio base station 20.

  The power monitoring unit 100 may transmit the power amount for each predetermined period to a predetermined destination. The predetermined period may be an arbitrary period such as a second unit, a minute unit, a time unit, or a day unit, and may be changed by setting. The predetermined destination is, for example, the power management apparatus 200. The predetermined destination may be changeable by setting.

  The power monitoring unit 100 may transmit the amount of power to the power management apparatus 200 via the network 50. The network 50 may include a mobile phone network to which the radio base station 20 belongs. The network 50 may include the Internet.

  The power management apparatus 200 receives the amount of power transmitted by the power monitoring unit 100. The power management apparatus 200 calculates an electricity bill for the power supplied to the radio base station 20 based on the received power amount.

  The power management apparatus 200 may execute a payment process for the calculated electricity bill. The power management apparatus 200 may create a payment notice to notify that the payment process has been executed. The power management apparatus 200 may transmit the created payment notice to a predetermined destination. For example, the power management apparatus 200 may transmit a payment notice to the owner of the building 30 that is the payee of the electricity bill.

  The power management apparatus 200 may create a calculation document including a calculation result. The power management apparatus 200 may transmit the created calculation document to a predetermined destination. For example, the power management apparatus 200 transmits a calculation document to a person in charge of a communication carrier.

  For power reception by the radio base station 20, it is desirable that the communication carrier and the power company make a direct contract. However, when the radio base station 20 is installed in the building 30 or the like, the radio base station 20 receives power from the building 30 as a tenant, for example. In this case, the communication carrier pays an electricity fee to the owner of the building 30. Here, ideally, it is desirable that the owner of the building 30 conducts a meter reading every month and bills the telecommunications carrier for the electricity bill corresponding to the power used, but as a matter of fact, a fixed amount payment is made with a memorandum. May be. The amount of the fixed amount payment is determined, for example, by calculating the power consumption from the specifications of each device provided in the radio base station 20 and multiplying the power factor and the operation rate and taking into account a certain margin rate. For this reason, the electricity bill paid by the communication carrier to the owner of the building 30 may be excessive or insufficient with respect to the amount of power actually used.

  According to the power management system 10 according to the present embodiment, the power monitoring unit 100 acquires the amount of power supplied to the radio base station 20 and transmits it to the power management apparatus 200. Thereby, the amount of electric power supplied from the building 30 to the radio base station 20 can be accurately grasped. Further, according to the power management system 10, the electricity charge of the power supplied to the radio base station 20 may be automatically calculated, and the payment process for the owner of the building 30 may be automatically executed. Thereby, the burden of a communication carrier can be reduced.

  FIG. 2 schematically shows an example of the power monitoring unit 100. The power monitoring unit 100 may be disposed in the MISC rack 70. The power monitoring unit 100 includes a Web controller 102 and a router 104.

  The Web controller 102 acquires the amount of power supplied to the radio base station 20 from the wattmeter 62 installed on the distribution board 60. The wattmeter 62 may include a three-phase wattmeter 64. The three-phase wattmeter 64 may include a single-phase wattmeter 66. The web controller 102 may acquire the amount of three-phase power supplied to the radio base station 20 from the three-phase power meter 62. The web controller 102 may acquire the amount of single-phase power supplied to the radio base station 20 from the single-phase wattmeter 66.

  The router 104 may be able to execute communication via the network 50. For example, the router 104 may be equipped with a SIM (Subscriber Identity Module), and performs wireless communication with the network 50 using data in the SIM. The web controller 102 may transmit the acquired power amount to the power management apparatus 200 via the router 104.

  FIG. 3 schematically shows an example of the functional configuration of the power monitoring unit 100. The power monitoring unit 100 includes a power amount acquisition unit 112 and a power transmission unit 114.

  The power amount acquisition unit 112 acquires the power amount of power supplied to the radio base station 20. The web controller 102 may be an example of the power amount acquisition unit 112. The power amount acquisition unit 112 may acquire the power amount of the three-phase power supplied to the radio base station 20. The power amount acquisition unit 112 may acquire the power amount of single-phase power supplied to the radio base station 20.

  The power amount acquisition unit 112 may acquire the amount of power supplied to the wireless device 22. The power amount acquisition unit 112 may acquire the power amount of the power supplied to the antenna 24. The power amount acquisition unit 112 may acquire the power amount of the power supplied to the lamp included in the radio base station 20. The power amount acquisition unit 112 may acquire the amount of power supplied to the cooling device included in the radio base station 20.

  The power transmission unit 114 transmits the power amount acquired by the power amount acquisition unit 112 to a predetermined destination. The router 104 may be an example of the power transmission unit 114. The power transmission unit 114 may transmit the power amount acquired by the power amount acquisition unit 112 to the power management apparatus 200. The power transmission unit 114 may transmit the power amount acquired by the power amount acquisition unit 112 to the power management apparatus 200 via the network 50.

  FIG. 4 schematically shows an example of a functional configuration of the power management apparatus 200. The power management apparatus 200 includes a power amount acquisition unit 202, an electricity bill calculation unit 204, a payment processing execution unit 206, a notification form creation unit 208, a notification form transmission unit 210, a calculation form creation unit 212, a calculation form output unit 214, a traffic amount An acquisition unit 216, a traffic volume output unit 218, an error information acquisition unit 220, an error information output unit 222, a temperature acquisition unit 224, a temperature output unit 226, and an operation status acquisition unit 228 are provided. In addition, it is not necessarily essential that the power management apparatus 200 includes all these configurations.

  The power amount acquisition unit 202 acquires the power amount of the power supplied to the radio base station 20. The power amount acquisition unit 202 may receive the power amount transmitted by the power transmission unit 114. The power amount acquisition unit 202 may acquire the power amount of the three-phase power supplied to the radio base station 20. The power amount acquisition unit 202 may acquire the power amount of single-phase power supplied to the radio base station 20.

  The power amount acquisition unit 202 may acquire the amount of power supplied to the wireless device 22. The power amount acquisition unit 202 may acquire the power amount of the power supplied to the antenna 24. The power amount acquisition unit 202 may acquire the power amount of the power supplied to the lamp included in the radio base station 20. The power amount acquisition unit 202 may acquire the amount of power supplied to the cooling device included in the radio base station 20.

  The electricity bill calculation unit 204 calculates the electricity bill of the power supplied to the radio base station 20 based on the power amount acquired by the power amount acquisition unit 202. For example, the electricity bill calculation unit 204 calculates the electricity bill by multiplying the amount of power acquired by the power amount acquisition unit 202 by a fee per unit amount of electricity.

  The electricity bill calculation unit 204 may calculate the electricity bill for an arbitrary period. The electricity charge calculation unit 204 may calculate the electricity charges for the three-phase power and the single-phase power supplied to the radio base station 20. The electricity bill calculation unit 204 may calculate the electricity bill for each of the wireless device 22, the antenna 24, the light of the wireless base station 20, and the cooling device of the wireless base station 20.

  The payment processing execution unit 206 executes a payment process for the electricity bill calculated by the electricity bill calculation unit 204. The payment process execution unit 206 executes, for example, a remittance process for a predetermined remittance destination. Moreover, the payment process execution part 206 performs the transfer process with respect to the predetermined transfer destination, for example. The payment process execution unit 206 may execute the payment process using any other method.

  The notice creation unit 208 creates a payment notice to notify that the payment process is executed by the payment process execution unit 206. The notice creation unit 208 may create a payment notice in any data format. The notice creation unit 208 may create a physical payment notice by printing payment notice data.

  The notice sending unit 210 sends the payment notice created by the notice creating unit 208 to a predetermined destination. For example, the notice sending unit 210 sends a payment notice to the payee of the electricity bill.

  The calculation document creation unit 212 creates a calculation document including the electricity bill calculated by the electricity bill calculation unit 204. The calculation document creation unit 212 may create a calculation document in any data format. The calculation document creation unit 212 may create a physical calculation document by printing data of the calculation document.

  The calculation document output unit 214 outputs the calculation document created by the calculation document creation unit 212. The calculation document output unit 214 displays the calculation document on a display included in the power management apparatus 200, for example. Further, the calculation document output unit 214 transmits and outputs the calculation document to the other device in order to display the calculation document on a display provided in the other device, for example.

  The traffic amount acquisition unit 216 acquires the communication traffic amount of communication executed by the radio base station 20. The traffic volume acquisition unit 216 may receive the communication traffic volume from the radio base station 20. The traffic volume acquisition unit 216 may receive the communication traffic volume from a monitoring system that monitors communication executed by the radio base station 20.

  The traffic amount output unit 218 outputs the communication traffic amount acquired by the traffic amount acquisition unit 216 and the power amount acquired by the power amount acquisition unit 202 in association with each other. For example, the traffic amount output unit 218 displays and outputs the communication traffic amount and the power amount in time series. Thereby, the correlation between the communication traffic amount and the power amount of the radio base station 20 can be easily grasped.

  The traffic amount output unit 218 may display and output each of the three-phase power amount and the single power amount acquired by the power amount acquisition unit 202 and the communication traffic amount in time series. Thereby, it is possible to easily grasp the correlation among the communication traffic amount, the three-phase power amount, and the single-phase power amount.

  The error information acquisition unit 220 acquires error information indicating an error that has occurred in the wireless device 22. The error information acquisition unit 220 may receive error information from the radio base station 20. The error information acquisition unit 220 may receive error information from a monitoring system that monitors the wireless device 22.

  The error information output unit 222 outputs the error information acquired by the error information acquisition unit 220 and the power amount acquired by the power amount acquisition unit 202 in association with each other. For example, the error information output unit 222 displays and outputs error information and electric energy in time series. Thereby, the correlation between the error generated in the radio base station 20 and the amount of power can be easily grasped.

  The temperature acquisition unit 224 acquires the temperature in the space where the wireless device 22 is installed. The temperature acquisition unit 224 may acquire the temperature detected by the temperature sensor arranged in the space where the wireless device 22 is installed. For example, the temperature acquisition unit 224 may receive the temperature from the temperature sensor via the network 50. The temperature acquisition unit 224 may receive the temperature from the temperature sensor via any communication terminal. The temperature acquisition unit 224 may read the temperature from a storage medium that stores the temperature detected by the temperature sensor.

  The temperature output unit 226 associates and outputs the temperature acquired by the temperature acquisition unit 224 and the power amount acquired by the power amount acquisition unit 202. For example, the temperature output unit 226 displays and outputs the temperature and the electric energy in time series. Thereby, it is possible to easily grasp the correlation between the temperature in the space where the wireless device 22 is installed and the amount of electric power.

  The operating status acquisition unit 228 acquires the operating status of the cooling device that cools the space in which the wireless device 22 is installed. For example, the operating status acquisition unit 228 receives the operating status from the cooling device. The operating status acquisition unit 228 may receive the operating status from a monitoring system that monitors the operating status of the cooling device.

  The temperature output unit 226 outputs the temperature acquired by the temperature acquisition unit 224, the electric energy acquired by the electric energy acquisition unit 202, and the operating status acquired by the operating status acquisition unit 228 in association with each other. For example, the temperature output unit 226 displays and outputs the temperature, the electric energy, and the operation status in time series. Thereby, it is possible to easily grasp the correlation between the temperature in the space in which the wireless device 22 is installed, the amount of electric power, and the operating status of the cooling device that cools the space in which the wireless device 22 is installed. .

  The power management apparatus 200 includes a sensor data acquisition unit that acquires data output by an arbitrary sensor arranged in the space where the wireless device 22 is installed, and the data and the power amount acquisition unit 202 acquire the data. And a sensor data output unit that outputs the associated power amount in association with each other. For example, the sensor data acquisition unit acquires humidity data output by a humidity sensor. For example, the sensor data output unit may display and output humidity and electric energy in time series.

  FIG. 5 schematically illustrates an example of a computer 1000 that functions as the power management apparatus 200. The computer 1000 according to this embodiment includes a CPU peripheral unit including a CPU 1010, a RAM 1030, and a graphic controller 1085 that are connected to each other by a host controller 1092; a ROM 1020 that is connected to the host controller 1092 by an input / output controller 1094; An input / output unit having F1040, a hard disk drive 1050, a DVD drive 1070, and an input / output chip 1080 is provided.

  The CPU 1010 operates based on programs stored in the ROM 1020 and the RAM 1030 and controls each unit. The graphic controller 1085 acquires image data generated by the CPU 1010 or the like on a frame buffer provided in the RAM 1030 and displays the image data on the display 1090. Alternatively, the graphic controller 1085 may include a frame buffer that stores image data generated by the CPU 1010 or the like.

  The communication I / F 1040 communicates with other devices via a network by wire or wireless. The communication I / F 1040 functions as hardware that performs communication. The hard disk drive 1050 stores programs and data used by the CPU 1010. The DVD drive 1070 reads a program or data from the DVD-ROM 1072 and provides it to the hard disk drive 1050 via the RAM 1030.

  The ROM 1020 stores a boot program executed when the computer 1000 is started up, a program depending on the hardware of the computer 1000, and the like. The input / output chip 1080 connects various input / output devices to the input / output controller 1094 via, for example, a parallel port, a serial port, a keyboard port, a mouse port, and the like.

  A program provided to the hard disk drive 1050 via the RAM 1030 is stored in a recording medium such as a DVD-ROM 1072 or an IC card and provided by a user. The program is read from the recording medium, installed in the hard disk drive 1050 via the RAM 1030, and executed by the CPU 1010.

  A program that is installed in the computer 1000 and causes the computer 1000 to function as the power management apparatus 200 may work on the CPU 1010 or the like to cause the computer 1000 to function as each unit of the power management apparatus 200. The information processing described in these programs is read by the computer 1000, whereby the power acquisition unit 202, which is a specific means in which the software and the various hardware resources described above cooperate with each other, the electricity rate calculation unit 204, payment processing execution unit 206, notification form creation unit 208, notification form transmission unit 210, calculation form creation unit 212, calculation form output unit 214, traffic volume acquisition unit 216, traffic volume output unit 218, error information acquisition unit 220, It functions as an error information output unit 222, a temperature acquisition unit 224, a temperature output unit 226, and an operating status acquisition unit 228. And the specific power management apparatus 200 according to the intended purpose is constructed | assembled by implement | achieving the calculation or processing of the information according to the intended purpose of the computer 1000 in this embodiment by these specific means.

  In the above embodiment, the case where the radio base station 20 is installed on the roof of the building 30 and receives power from the building 30 has been described as an example, but the present invention is not limited thereto. The radio base station 20 may be installed at an arbitrary location and receive power from the arbitrary location.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

  The order of execution of each process such as operations, procedures, steps, and stages in the apparatus, system, program, and method shown in the claims, the description, and the drawings is particularly “before” or “prior to”. It should be noted that it can be realized in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the description, and the drawings, even if it is described using “first,” “next,” etc. for convenience, it means that it is essential to carry out in this order. It is not a thing.

10 power management system, 20 radio base station, 22 radio, 24 antenna, 30 building, 40 installation space, 50 network, 60 distribution board, 62 power meter, 64 three-phase power meter, 66 single-phase power meter, 70 MISC Rack, 100 power monitoring unit, 102 Web controller, 104 router, 112 power amount acquisition unit, 114 power transmission unit, 200 power management device, 202 power amount acquisition unit, 204 electricity bill calculation unit, 206 payment processing execution unit, 208 notification Document creation unit, 210 notification document transmission unit, 212 calculation document creation unit, 214 calculation document output unit, 216 traffic volume acquisition unit, 218 traffic volume output unit, 220 error information acquisition unit, 222 error information output unit, 224 temperature acquisition unit 226 Temperature output unit 228 Operation status acquisition unit 1000 Compu Data, 1010 CPU, 1020 ROM, 1030 RAM, 1040 a communication I / F, 1050 hard drive, 1070 DVD drive, 1072 DVD-ROM, 1080 output chip 1085 graphics controller, 1090 a display, 1092 host controller, 1094 output controller

Claims (10)

A power amount acquisition unit that acquires a power amount of power supplied to a radio and an antenna included in the radio base station; and
A power management system comprising: a power amount transmitting unit that transmits the power amount for each predetermined period to a predetermined destination. Based on the amount of power acquired by the power amount acquisition unit, an electricity rate calculation unit that calculates an electricity rate of the power supplied to the radio and the antenna;
The power management system according to claim 1, further comprising: a payment processing execution unit that executes the payment processing of the electricity bill. The power management system according to claim 2, further comprising: a notice creation unit that creates a payment notice to notify that the payment process has been executed. Based on the amount of power acquired by the power amount acquisition unit, an electricity rate calculation unit that calculates an electricity rate of the power supplied to the radio and the antenna;
The power management system according to claim 1, further comprising: a calculation document creation unit that creates a calculation document including a calculation result by the electricity price calculation unit. A traffic amount acquisition unit for acquiring a communication traffic amount of communication executed by the wireless device;
The power management system according to any one of claims 1 to 4, further comprising: a traffic volume output unit that outputs the communication traffic volume and the power volume in association with each other. An error information acquisition unit that acquires error information indicating an error that has occurred in the wireless device;
The power management system according to any one of claims 1 to 5, further comprising: an error information output unit that outputs the error information and the power amount in association with each other. A temperature acquisition unit that acquires a temperature detected by a temperature sensor disposed in a space where the wireless device is installed; and
The power management system according to any one of claims 1 to 6, further comprising: a temperature output unit that outputs the temperature and the power amount in association with each other. An operating status acquisition unit that acquires the operating status of a cooling device that cools the space in which the radio is installed;
The power management system according to claim 7, wherein the temperature output unit further outputs the operating status of the cooling device in association with each other.   The power management system according to any one of claims 1 to 8, wherein the power amount acquisition unit acquires power amounts of single-phase power and three-phase power supplied to the radio base station. An amount of power acquisition stage for acquiring the amount of power supplied to the radio and antenna of the radio base station; and
A power management method comprising: a power transmission step of transmitting the power during a predetermined period to a predetermined destination.

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