KR101029630B1 - Telemetring system using power supplys for hfc net and the running method - Google Patents

Abstract

PURPOSE: A remote control system using an HFC(Hybrid Fiber Coaxial) network power supply and a driving method thereof are provided to pay costs according to an amount of power consumption by monitoring power used at each line section. CONSTITUTION: A plurality of digital power meters(40) are electrically connected to a HFC power supply(30) and read an electric meter in a hybrid fiber coaxial network line(10). A plurality of HFC network communication modems for calculating power are installed at the HFC network line and are connected to the digital power meters to receive power consumption information. A metering server(60) communicates with the HFC network communication modem to receive the power consumption information.

Description

Remote metering system using optical fiber shaft power supply and its driving method {TELEMETRING SYSTEM USING POWER SUPPLYS FOR HFC NET AND THE RUNNING METHOD}

The present invention relates to a remote meter reading system using a HFC network power supply and a driving method thereof, and more particularly to a remote meter reading system using an optical coaxial network power supply for remotely reading the power of the optical coaxial network power supply. .

CATV and Internet service providers using the HFC network are supplying subscribers to the housing or business buildings, which are wired Guangdong axis networks, which are the proponents of power supply lines for supplying electricity to KEPCO. It is installed on the stand.

In this case, the optical coaxial network installed in the holding post is provided with bidirectional modems and a signal amplifying device for amplifying the signals of the modems. These bidirectional modems and signal amplifying devices support power from a power supply installed at each section. It is driven.

On the other hand, operators using the above-mentioned optical coaxial network statistically calculates how much power the entire optical coaxial network consumes, and uses these power consumption contracts with KEPCO as expected power values.

However, this contract power supply is often different from the amount of power used by the operators using the optical coaxial network. For this reason, the contract power supply method often causes confusion among workers in the contracting process of the power supply because there is no data on power usage between the power supplier and the contractor.

Therefore, there is a current need to pay electricity bills based on accurate power usage between Guangdong network operators and power providers.

SUMMARY OF THE INVENTION The present invention provides a remote meter reading system using an optical fiber network power supply that can make a payment according to the exact power consumption between the power supplier and the optical fiber network provider without using a contract power method between the power supplier and the optical fiber network operator. It is to provide a driving method.

The remote meter reading system using the optical coaxial network power supply of the present invention for achieving the above technical problem is the optical coaxial network line installed in the holding post; A signal amplifier installed on the optical coaxial network line; And an optical coaxial network power supply for supplying power to the signal amplifier through the optical coaxial network line. In the remote meter reading system using the optical coaxial power supply is formed, including,

A plurality of digital power meter readers electrically connected to each of the optical coaxial network power supplies to read the amount of power supplied from the optical coaxial network power supply to the optical coaxial network line; A plurality of each is installed in each of the Guangdong shaft line section, a plurality of electrically connected to the Guangdong shaft line to communicate with each other, electrically connected to each of the digital power meter to receive power usage information read by the digital power meter Optical coaxial network modems for power generation; And a meter reading server configured to perform communication with the power calculating optical coaxial network modem to receive the power usage information received by the power calculating optical coaxial network modem. Characterized in that it further comprises.

In this case, different fixed ips are set in the power calculating optical coaxial network modems, and the meter reading server connects to each of the power calculating optical fiber shaft communication modems with addresses as fixed addresses. The meter reading server performs communication with an axis network communication modem, and the meter reading server generates an optical fiber network section information DB in an area where the power calculation optical fiber network communication modem is installed to match the fixed ips of the power calculation optical fiber network communication modem. The power usage can be remotely read for each axis section.

In addition, the meter reading server may be configured in plural to be installed in different areas to read power consumption for each area section of the Guangdong network line.

In addition, the meter reading server may calculate the total amount by summing the power consumption for each region section of the Guangdong shaft line, and may generate a total amount DB formed by dividing the total amount by period.

The meter reading server may detect a case in which the power usage of the optical fiber network power supply increases rapidly during the reference time and inform the operator of the optical fiber network network line, and the meter reading server may power the optical fiber network power supply during the reference time. The case where there is no usage amount can be detected and notified to the operator of the optical coaxial network line.

On the other hand, the method for driving a remote meter reading system using the optical coaxial network power supply for achieving the above technical problem is a signal amplifier installed on the optical coaxial network line, the optical amplifier is installed on the optical coaxial network line, the signal amplifier through the optical coaxial network line A plurality of digital power meter readers electrically connected to each of the optical coaxial network power supplies for supplying power to the optical coaxial network power supplies, and reading power usage supplied from the optical coaxial network power supply to the optical coaxial network lines, the optical coaxial network lines A plurality of power generation optical coaxial network for each section is installed and electrically connected to the optical fiber network line to perform communication, and electrically connected to each of the digital power meter to receive power usage information read by the digital power meter Communication modem and the power calculation Coaxial network communication modem and receiving communication performed by inputting the power usage information received by Guangdong chukmang communication modem for the power calculating the meter server; In the remote meter reading system using the optical coaxial power supply is formed, including,

A power amount detection step of digital power meter readers attached to each of the optical coaxial network power supplies continuously detecting power usage information of each of the optical coaxial network power supplies; A power supply preparation step of inputting power amount information respectively consumed by the optical coaxial network power supplies detected by the plurality of digital power meter readers to the power output optical coaxial network communication modem attached to each of the digital power meter readers; The meter reading server connects to a fixed ip address of each of the power calculating optical coaxial network modems and transmits power consumption information for receiving power usage information of each of the optical coaxial network power supplies received by the power calculating optical coaxial network modems. step; And determining the installation section of the optical fiber network line in which the optical fiber network power supplies are installed by storing the local information matching the fixed ip address in the meter reading server, and receiving the power input from the optical fiber communication modems for power calculation at the meter server. The power consumption information of each of the Guangdong shaft power supply is added to each region section of the Guangdong shaft line to calculate the total amount and the sum is divided into daily, weekly, monthly, quarterly and yearly sums. Calculating power usage for each track section generating a quantity DB; And the second electrode is formed.

Here, the method of driving the remote meter reading system using the optical coaxial network power supply detects a case where the power consumption of the optical coaxial network power supply increases rapidly in the metering server for a reference time, or the power consumption of the optical coaxial network power supply for the reference time. A line abnormal power detection step of detecting a case where there is no error and informing the operator of the optical coaxial network line; It may be formed to include more.

The present invention monitors the power usage of each line and the entire line of the Guangdong Axis line so that the user can pay the cost according to the exact power usage between the supplier and the Guangdong Network operator without using the contract power method between the power supplier and the Guangdong network operator. For example, power providers and operators of optical coaxial networks have the advantage of being able to calculate power and handle costs according to the exact amount of power used.

In addition, the present invention can monitor the power consumption of the Guangdong shaft line by section and at the same time to monitor the power usage of the Guangdong shaft line by period to determine whether the line is aging due to the change in power consumption, planning the maintenance of the line Therefore, there is an effect of preventing abnormalities in the line.

In addition, the present invention can monitor the power consumption of the Guangdong shaft line by section to plan the repair or maintenance due to the failure of the line according to the increase or decrease of the amount of power used by the load for each section of the Guangdong shaft line, There is an effect of improving the quality of services provided by operators using the Guangdong network.

The above effects have been briefly described so as not to obscure the subject matter of the present invention, and the present invention will be described in detail with reference to the following detailed description.

1 is a block diagram of a remote meter reading system using an optical coaxial network power supply according to an embodiment of the present invention.
2 is a configuration diagram of an installation example of a remote meter reading system using the optical coaxial network power supply shown in FIG.
Figure 3 is a flow chart of a method of driving a remote meter reading system using the optical coaxial network power supply.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, the components constituting the remote meter reading system using the optical coaxial network power supply according to an embodiment of the present invention, the coupling relationship between the components and the role of the components will be described.

1 is a block diagram of a remote meter reading system using an optical coaxial network power supply according to an embodiment of the present invention. FIG. 2 is a configuration diagram illustrating an installation example of a remote meter reading system using the optical coaxial network power supply shown in FIG. 1.

1 and 2, a remote meter reading system using an optical coaxial network power supply 30 according to an embodiment of the present invention according to an embodiment of the present invention is the optical coaxial network line 10, signal amplifier 20, Guangdong It is formed to include a shaft network power supply 30, digital power meter 40, a power calculation optical coaxial network modem 50, and the metering server (60).

The Guangdong shaft line 10 is installed on the holding post (1) on the roadside. The optical coaxial network line 10 is a HFC (Hybrid-Fiber Coaxial) network using a mixture of coaxial and optical cables. Here, the support pole (1) is provided with an electric wire (2) for supplying power to the building as well as the Guangdong shaft line (10). The Guangdong axis network line 10 is a line installed by CATV and Internet communication providers using Guangdong axis network. Here, since the optical coaxial network line 10 has an internal resistance value, it corresponds to the load of the optical coaxial network power supply 30.

A plurality of signal amplifiers 20 are installed in the optical coaxial network line 10 at predetermined intervals, and the plurality of signal amplifiers 20 are connected to each other in series through the optical coaxial network line 10. Here, the signal amplifier 20 is a device for compensating for the CATV signal and the line signal of the Internet communication signal due to the resistance value of the optical coaxial network line 10 and the like. Here, the signal amplifier 20 corresponds to the load of the optical coaxial network power supply 30.

The optical coaxial network power supply 30 is installed in the holding post 1 and supplies power to the signal amplifier 20. Here, the Guangdong shaft power supply 30 is supplied with power from the transformer (3) installed in the holding post (1), in this case, the Guangdong shaft power supply 30 to the AC voltage received from the gearbox In a variable state, power is supplied to the signal amplifier 20 through the optical coaxial line 10. The reason why the optical coaxial network power supply 30 supplies AC power to the signal amplifier 20 is that a plurality of signal amplifiers 20 are serially connected to the optical coaxial network line in which the optical coaxial network line 10 forms one line section. This is because power is supplied to all of these sections in a connected state. Accordingly, the specific optical coaxial network power supply 30 among the plurality of optical coaxial network power supplies 30 supplies power to all of the signal amplifiers 20 installed in specific sections of the optical coaxial network line 10. In this case, the optical coaxial network line 10 includes not only an AC power applied from the optical coaxial network power supply 30 but also a CATV signal and an internet communication signal, and the signal amplifier 20 is alternating from the optical coaxial network line 10. It is driven by power and bidirectionally amplifies CATV signals and Internet communication signals.

The digital power meter 40 is installed on the holding table (1) and electrically connected to each of the optical coaxial network power supply 30, a circuit unit for converting the analog voltage to a digital voltage therein to calculate the power consumption (not shown) H) is mounted to read the amount of power supplied from the optical coaxial network power supply 30 to the optical coaxial network line 10. In this case, the digital power meter 40 is installed for each optical coaxial network power supply 30 to read the power consumption of each optical coaxial network power supply 30.

The power output optical coaxial network modem 50 is installed around the holding table 1 and is configured in plural to correspond to the digital power meter 40, and is connected to each of the digital power meter 40. In addition, the power calculation optical coaxial network communication modem 50 is connected to the optical coaxial network line 10 through the optical coaxial network line 10, and is electrically connected to the signal amplifier 30 to perform communication, in this case, The optical output network communication modem 50 for power calculation is electrically connected to each of the digital power meter 40 to receive power usage information read by the digital power meter 40.

Here, the power calculation optical coaxial network communication modem 50 has a LAN (LAN) setting function therein, it is possible to set a fixed ip, the plurality of power output optical coaxial network communication modem 50 is set a different fixed ip. .

The meter reading server 60 communicates with the power calculating optical coaxial network modem 50 to receive the power usage information received by the power calculating optical coaxial network modem 50.

In more detail, the meter reading server 60 stores the fixed ip information of the power generation optical coaxial network communication modems 50, and connects to each of the fixed ips of the power calculation optical coaxial network communication modems 50 as addresses. Communication with the calculation optical coaxial network modem 50 is performed.

In addition, the meter reading server generates the optical fiber network section information DB of the region where the power output optical fiber network communication modem 50 is installed so as to match the fixed ips of the power output optical fiber network communication modem 50, the optical fiber network line 10 The power consumption can be remotely read for each interval of. In this case, the meter reading server secures the Guangdong shaft network section information DB, by providing the Guangdong shaft network section information DB to the Guangdong shaft network operators to know the power consumption in a particular section of the Guangdong shaft line 10.

In addition, the meter reading server 60 may be configured in plural so as to be installed in different areas so that the power consumption can be read for each area section of the optical coaxial network line 10. 2, the meter reading server 60 is illustrated as being composed of two, one of the two meter reading server 60 is installed in the operator of the power supplier to supply power and the other is the CATV operator to be powered Is installed on. In this case, the two metering server 60 is installed at both the power supplier and the power supply target to check the power usage, so that it is possible to calculate the exact power cost according to the power supply contract, so that the payment between the supplier and the contractor There is no complication about. In addition, workers who are engaged in the task of calculating the power consumption, or those who charge for the payment can be able to process their tasks quickly using the meter reading server 60, thereby increasing work efficiency.

In addition, the meter reading server 60 may calculate the total amount by summing the power consumption for each region section of the optical coaxial network line 10, and generate a total amount DB formed by dividing the total amount by period. Here, the cycle may be a daily, weekly, monthly, quarterly, and yearly sum. The sum DB shows the change in power consumption per cycle when the resistance value of the Guangdong shaft line 10 changes due to temperature changes in summer or winter so that the operator can see that the Guangdong shaft power supply 30 is not short of power supply. By determining whether to expand or by observing the change in the power consumption per cycle for each section of the Guangdong axis network 10, it is possible to predict the age of the line to plan the maintenance of the line.

In addition, the meter reading server 60 monitors the power usage of the optical fiber network power supply 30, the power consumption of the specific optical fiber network power supply 30 in the center of the optical fiber network power supply 30 rapidly increases during the reference time. In this case, information about a specific optical coaxial network power supply 30 in which power consumption is increased may be notified to the operator of the optical coaxial network line 10. When the power consumption of the specific optical coaxial network power supply 30 is increased, it may be an abnormal operation due to a failure of the optical coaxial network power supply 30 or when a power of a specific section of the optical coaxial network line 10 is leaked. In particular, during a summer typhoon or a rainy season, a specific section of the Guangdong shaft line 10 is disconnected and power is leaked or a short circuit occurs frequently due to rainwater from the Guangdong shaft line 10 and the modem and the amplifier. In this case, the operator of the Guangdong shaft line 10 by checking the installation area of the Guangdong shaft power supply 30 installed in a specific section of the line through which the power consumption is rapidly increased during the reference time through the metering server 60, the specific Maintains the Guangdong shaft power supply 30 and Guangdong shaft line 10 of the section. Here, the meter reading server 60 may be connected to the speaker (not shown) to transmit a warning sound when the power consumption is continuously increased during the reference time, and in conjunction with the SMS service device to the person in the workplace subscribed to the SMS service It can be notified when the power usage is suddenly increased.

In addition, the meter reading server 60 detects the optical coaxial network power supply 30 when there is no power consumption of the specific optical coaxial network power supply 30 during the reference time among the optical coaxial network power supply 30, the corresponding optical coaxial network power supply The operator of the optical coaxial network line 10 can be notified that the power of 30 is not being used. If there is no power consumption of the optical fiber network power supply 30 during the reference time, the self-protection function of the optical fiber network power supply 30 is activated due to a short circuit, or the failure of the optical fiber network power supply 30 or the optical fiber network power supply 30 A transformer and power line applied to (30) correspond to a fault. In this case, the worker of the oppressor operating the Guangdong shaft network 10 checks the local information of the particular Guangdong shaft network power supply 30 through the meter reading server 60 and maintains the maintenance of the Guangdong shaft network power supply 30. Will be implemented. In this case, the meter reading server 60 may be connected to a speaker (not shown) and may transmit a warning sound when there is no power consumption. You can inform.

Hereinafter, a method of driving a remote meter reading system using the optical coaxial network power supply 30 will be described.

3 is a flow chart of a method of driving a remote meter reading system using the optical coaxial network power supply 30.

Referring to FIG. 3 further, the method of driving the remote meter reading system using the optical coaxial network power supply 30 according to an embodiment of the present invention includes a power amount detection step S10, a power supply preparation step S20, and a power consumption information transmission. Step S30 and the step of calculating the power consumption for each line section (S40) is formed. In addition, the driving method of the remote meter reading system using the optical coaxial network power supply 30 according to an embodiment of the present invention includes a line abnormal power detection step (S50); It may be formed to include more.

The power amount detecting step (S10) is a step in which the digital power meter 40 attached to each of the optical coaxial network power supplies 30 continuously detects power usage information of each of the optical coaxial network power supplies 30.

The power consumption preparation step (S20) is a power calculation optical coaxial network communication modem attached to each of the digital power meter reading power consumption information each of the optical coaxial network power supply 30 detected by the plurality of digital power meter 40 It is a step input to 50.

The power consumption information transmitting step (S30) is connected to a fixed ip address of each of the power calculation optical coaxial network communication modem 50 in the meter reading server 60, the optical coaxial network received by the power output optical coaxial network communication modem 50 In this step, power usage information of each of the power supplies 30 is received.

The step of calculating the power consumption for each line section (S40) stores the region information matching the fixed ip address in the meter reading server 60 to determine the installation section of the Guangdong shaft line 10, the Guangdong shaft network power supply 30 is installed, The total amount of power usage information of the optical fiber network power supplies 30 received from the optical fiber network modems 50 for power calculation in the meter reading server 60 is added for each region of the optical fiber network line 10. Computing the step of generating a total amount DB is formed by dividing the total amount by daily, weekly, monthly, quarterly, and yearly.

The line abnormal power detection step (S50) detects a case where the power usage of the optical coaxial network power supply 30 increases rapidly in the meter reading server 60 during the reference time, or the power of the optical coaxial network power supply 30 during the reference time. Detecting a case where there is no usage, and notifying the operator of the optical coaxial network line 10.

The above-described power amount detecting step (S10), power consumption amount preparation step (S20), power consumption information transmission step (S30), and power consumption calculation step (S40) for each line section are continuously made and installed in a certain section of optical coaxial network power The power usage of each of the supplies can be monitored, and the optical fiber network line 10 of the specific section can determine whether there is an abnormal line by the line abnormal power detection step (S50).

As described above, the remote meter reading system and the driving method using the optical coaxial network power supply 30 according to an embodiment of the present invention between the power supplier and the optical coaxial network operators without using a contract power method between the power supplier and the optical coaxial network operators Since the power usage of each line and the entire line of the Guangdong shaft 10 is monitored so that the payment can be made according to the exact amount of power consumption, the power supplier and the Guangdong network operator can calculate the power and handle the cost according to the exact amount of electricity used. Will be.

In addition, the remote meter reading system and the driving method using the optical coaxial network power supply 30 according to an embodiment of the present invention to monitor the power consumption of the optical coaxial network line 10 by section and at the same time the optical coaxial network line 10 It is possible to determine whether the track is aging due to the change in the power consumption by monitoring the power consumption of the line, so that the maintenance of the line can be prevented in advance.

In addition, the remote meter reading system and the driving method using the optical coaxial network power supply 30 according to an embodiment of the present invention by monitoring the power consumption of the optical coaxial network line (10) for each section load of each section of the optical coaxial network line (10) In accordance with the increase or decrease in the amount of power used by the fault can be planned for repair or maintenance due to the failure of the line, it is possible to improve the quality of service provided by the operator using the Guangdong shaft line 10.

10; Optical coaxial line 20; Signal amplifier
30; Optical coaxial power supply 40; Digital power meter
50; Optical coaxial network modem for power calculation
60; Meter reading server

Claims (8)

Guangdong shaft line installed in the holding post; A signal amplifier installed on the optical coaxial network line; And an optical coaxial network power supply for supplying power to the signal amplifier through the optical coaxial network line. In the remote meter reading system using the optical coaxial power supply is formed, including,
A plurality of digital power meter readers electrically connected to each of the optical coaxial network power supplies to read the amount of power supplied from the optical coaxial network power supply to the optical coaxial network line;
A plurality of each is installed in each of the Guangdong shaft line section, a plurality of electrically connected to the Guangdong shaft line to communicate with each other, and electrically connected to each of the digital power meter reader to receive the power usage information read by the digital power meter Optical coaxial network modems for power generation; And
A meter reading server configured to perform communication with the power calculating optical coaxial network modem to receive the power usage information received by the power calculating optical coaxial network modem; Remote meter reading system using the optical coaxial network power supply, characterized in that it further comprises.
The method of claim 1,
Different fixed ip is set in the power calculation optical coaxial network modems,
The meter reading server communicates with the power calculating optical coaxial network communication modem by accessing the fixed ips of the power calculating optical coaxial network modems as addresses.
The meter reading server generates the optical coaxial network section information DB of the region where the power calculating optical coaxial network communication modem is installed so as to match the fixed ips of the power calculating optical coaxial network communication modem, and remotely reads the power consumption for each optical coaxial network section. Remote meter reading system using the optical coaxial network power supply, characterized in that.
The method of claim 2,
The meter reading server is composed of a plurality of so as to be installed in different areas so that the meter can be used to read the power consumption for each region section of the optical coaxial network power supply system.
The method of claim 2,
The meter reading server calculates a sum amount by summing power usage for each region section of the Guangdong shaft line, and generates a sum amount DB which is formed by dividing the sum amount by period. .
The method of claim 1,
The meter reading server detects a case in which the power usage of the optical fiber network power supply is rapidly increased during the reference time and informs the operator of the optical fiber network network line remote meter reading system using the optical fiber network power supply.
The method of claim 1,
The meter reading server detects a case in which there is no power consumption of the optical fiber network power supply for a reference time, and remote meter reading system using the optical fiber network power supply, characterized in that notified to the operators of the optical fiber network.
An optical coaxial network line installed at a support stand, a signal amplifier installed at the optical coaxial network line, an optical coaxial network power supply for supplying power to the signal amplifier via the optical coaxial network line, and electrically connected to each of the optical coaxial network power supplies A plurality of digital power meter for reading the amount of power supplied from the optical fiber network power supply to the optical fiber network line, a plurality of digital power meter is installed in each of the optical fiber network line section and is electrically connected to the optical fiber network line to communicate with the digital power Can be electrically connected to each of the meter and the plurality of power output optical coaxial network communication modem for receiving power consumption information read by the digital power meter and the power output optical coaxial network communication modem to communicate with the power output Guangdong Use of the above power input to the axis communication modem Meter reading server receiving quantity information; In the remote meter reading system using the optical coaxial power supply is formed, including,
A power amount detection step of digital power meter readers attached to each of the optical coaxial network power supplies continuously detecting power usage information of each of the optical coaxial network power supplies;
A power supply preparation step of inputting power amount information respectively consumed by the optical coaxial network power supplies detected by the plurality of digital power meter readers to the power output optical coaxial network communication modem attached to each of the digital power meter readers;
The meter reading server connects to a fixed ip address of each of the power calculating optical coaxial network modems and transmits power consumption information for receiving power usage information of each of the optical coaxial network power supplies received by the power calculating optical coaxial network modems. step; And,
The meter reading server stores local information matching the fixed ip address to determine an installation section of the Guangdong shaft network line where the Guangdong shaft power supplies are installed, and the Guangdong received from the power calculation optical fiber shaft communication modems at the meter server. A sum amount DB, which is formed by summing each power consumption information of shaft power supplies for each region section of the Guangdong shaft line, and dividing the sum amount into daily, weekly, monthly, quarterly, and yearly sums. Calculating power usage for each line section to generate a; Method of driving a remote meter reading system using an optical coaxial network power supply, characterized in that formed.
The method of claim 7, wherein
A line that detects a case in which the power usage of the optical fiber network power supply increases rapidly during the reference time, or detects when the power consumption of the optical fiber network power supply is absent during the reference time, and informs the operator of the optical fiber network network line Abnormal power detection step; Remote meter reading system driving method using an optical coaxial network power supply, characterized in that it further comprises.

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