KR100306217B1 - Automatic remote measuring system for watt-hour meter - Google Patents

Abstract

PURPOSE: An automatic remote measuring system for a watt-hour meter is provided to enable a central control center computer of electric power company to remotely measure to electric power consumption of each watt-hour meter without replacing the mechanical watt-hour meter. CONSTITUTION: The system comprises an IR transmitter(104), an IR receiver(105), an aluminum disc with three flat coils(102) of watt-hour meter having a hole(103) in order to be passed by the IR, a counter(106) counting the data received by IR receiver, a memory(107) storing the counting data, an address device(108) assigning the address of watt-hour meter, a display(110) displaying the counting data, a display driver(109), a setting device(112) setting the displayed watt-hour in order to match to the watt-hour of mechanical watt-hour meter, a communication modem(111) receiving the command data from a host computer of central control center and transmitting the digital data of watt-hour stored in the memory according to the command data, and a CPU(113) controlling each device.

Description

Remote automatic measurement system of power totalizer

The present invention is a mechanical power integrator for measuring the power consumption, the electrical power consumption measured by the mechanical power integrator converts the digital data and give the power integrator to each power source from the power company to the host computer of the central control station It provides a system to remotely measure the electricity consumption of totalizers by time zone, region and address.

The electric power integrator installed in each conventional electric power demand is a mechanical power integrator which calculates the power consumption by counting the number of revolutions of the aluminum disc with three flat coils by a mechanical counting mechanism. Since the power company is a computer of the central control station was not able to remotely measure the power consumption of each demand.

In Korea, the number of mechanical power accumulators already installed is close to 14 million, which requires huge equipment and replacement costs to dispose of all 14 million mechanical power accumulators and replace them with digital power accumulators. Since it was not possible to replace it, the meter reader visited Lake Gaga every month and charged electricity by visually reading the electricity consumption.

The existing method of metering electricity usage with the naked eye every month costs a lot of labor due to the hiring of the meter, and some demands do not open the gate by mistaken the meter as a bully or thief, and even if the meter visits, Since there are many cases, the meter reading was inaccurate.

In addition, the conventional method has difficulty in predicting and analyzing the demand of electric power, because the electric company cannot grasp and analyze the electric demand pattern of the demanders using electricity by time, season, type of demand, and region. .

In order to solve the above problems, the present invention does not replace the existing mechanical power accumulators, but attaches a simple additional device to the existing mechanical power accumulators, gives an electronic address to each power accumulator, and measures the existing mechanical power accumulators. By converting the power consumption into digital data, the power company provides a system to remotely measure the electricity usage of each power accumulator from a computer at a central control station.

1 is a system block diagram of the present invention;

2 is a modified system configuration block diagram of the present invention.

<< Explanation of the code | symbol about the main part of drawing.

101: rotation axis of the power accumulator 102: rotation disc of the power accumulator

103: IR through hole 104: IR transmitter

105: IR receiver 106: count means

107: power amount integration memory means 108: address (ADDRESS) means

109: display drive means 110: DISPLAY means

111: communication modem 112: SETTING section

113: central control unit 201: rotation axis of the power accumulator

202: rotating disc 203: reflective tape

204 light emitting means 205 light receiving means

206: count means 207: power amount integration memory means

208: address means 209: display drive means

210: display means 211: communication modem

212: SETTING section 213: central control unit

Hereinafter, with reference to the accompanying drawings will be described the system configuration of the present invention and its effects and effects for achieving the above object.

1 is a system block diagram of the present invention;

2 is a system block diagram when replacing the sensor unit of the present invention with an optical sensor.

As shown in Fig. 1, the present invention relates to an IR transmitter 104; An IR receiver 105; An aluminum rotating disc 102 of a power accumulator in which a hole 103 is drilled to allow IR to pass therethrough; Counting means 106 for counting data received by the IR receiver; Memory means 107 for storing and storing the counted data; Address means 108 for specifying an address of the power accumulator; Display means (110) for displaying the counter power amount; Display drive means 109 for driving display means; Setting means 112 for setting the amount of power displayed on the display means 110 and the amount of power on the mechanical power accumulator to match; A communication modem 111 for receiving the instruction data of the host computer of the central control station and transmitting digital data of the amount of power stored and stored in the memory means in accordance with the instruction data; It is composed of a central control unit 113 for controlling each of the above means.

Referring to the operation and effect of the present invention.

First, as shown in FIG. 1, a hole 103 is drilled through the aluminum rotating disk 102 of the mechanical power accumulator so that the IR signal can pass therethrough, and the IR transmitter 104 passes through the hole. When the IR receiver 105 is installed, the IR signal oscillated by the IR transmitter 104 passes through the hole every time the aluminum rotating disc 102 rotates once, and the IR receiver 105 receives the IR signal once. The received signal data is transmitted to the counting means 106.

Therefore, the counting means 106 continuously counts the number of revolutions of the aluminum rotating disc, and stores the counted data in the power amount memory means 107 under the control of the central control unit 113, and at the same time, the display means via the drive means 109. The display unit 110 is to be displayed on the display unit 110. At this time, when the first installation is performed, the setting unit 112 is operated so that the amount of power displayed on the existing power accumulator and the amount of power displayed on the display unit 110 match. The numerical value of and the numerical value appearing on the display means 110 will always match.

When the central office of the power company transmits signal data to report to the host computer via the communication modem 111 to the central processing unit 113, the central processing unit 113 hosts the data stored in the memory means 107. The host computer of the central control station can remotely measure the power usage for each address specified in the address means 108.

In addition, as shown in Fig. 2, one end of the aluminum rotating disk 202 of the power integrator is attached with a reflective tape 203 responding to a specific frequency, and the same effect is applied to the reflective tape instead of the reflective tape. .), If the light emitting means 204 for emitting light at a specific frequency and the light receiving means 205 for receiving the optical signal reflected from the reflective tape are provided, the light emitting means 204 is rotated every time the aluminum rotating disc 202 rotates. The oscillated signal is reflected by the reflective tape 203 so that the light receiving means 205 receives it once, and transmits the data received by the light receiving means 205 to the counter means 206 as described in FIG. The power consumption is stored and stored in the memory means 207, displayed on the display means 110, and transmitted to the host computer of the central control station through the communication modem 211.

As described above, the present invention does not replace the existing mechanical power integrator, but gives an address to the existing mechanical power integrator as a simple additional device, converts the amount of power measured by the existing mechanical power integrator into digital data, By transmitting to the host computer, the cost of replacing the existing mechanical power integrator with the digital power integrator is reduced, and the electric power company can reduce the cost of the meter readers by visiting Gagaho. In addition, the utility company can remotely measure the total power consumption by region, address, and time zone with the host computer of the central control station, thereby creating an effective power operation plan.

Claims (3)

In the electric power integrator which a utility company remotely measures the electricity usage of each subscribing consumer with a host computer of a central control station, (a) a rotating disc drilled through one end of the rotating disc of the mechanical power integrating device for the IR signal to pass therethrough; (b) an IR transmitter for oscillating an IR signal into the hole of the disc; (c) an IR receiver for receiving an IR signal generated by the IR transmitter; (d) counting means for counting the number of received IR signals; (e) memory means for storing and storing data counted by the counting means; (f) address means for specifying an address; (g) display means for displaying a counted amount of power; (h) drive means for driving the display means; (i) setting means for setting the amount of power displayed on the display means to match the amount of power displayed on the mechanical power accumulator; (j) a communication modem for receiving an instruction signal from a host computer in a central control station and transmitting data stored in a memory means; (k) a remote measurement system of a power accumulator, characterized in that it comprises a central processing means for controlling the above means. The method according to claim 1, Remove the IR transmitter and IR receiver; Attaching a paint tape responsive to a specific optical frequency to one end of a rotary vane of the power integrating system; Light emitting means for emitting a specific optical frequency reflected by the paint; Remote measurement system of the power accumulator, characterized in that consisting of a light receiving means for receiving the above specific optical frequency The method according to claim 1, A remote memory power integrator system comprising a second memory means for storing and storing the data of the power measurement at a specific time designated by the host computer of the central control station and transmitting the data to the host computer.