KR200356868Y1 - Remote metering device for detecting pulse signal with real-time - Google Patents

Abstract

The present invention relates to a remote meter for monitoring the pulse signal in real time, and more particularly to a remote meter that can detect the disconnection of the pulse connection line.

The remote meter for real-time monitoring of the pulse signal of the present invention attaches a magnet to any one of the number wheels, and when the monitoring unit adjacent to the number wheel detects the magnet, the meter generates a detection signal and leads to the meter. In the remote meter reading device attached to the switch connecting the pulse connection line of the two lines to the monitoring unit, it is made of a predetermined number of monitoring lines connected to the monitoring unit and the pulse connection line of the two lines to determine the disconnection of the pulse connection line There is a characteristic.

Therefore, the remote meter that monitors the pulse signal of the present invention in real time can attach the monitoring line to recognize the disconnection state and the occurrence time of the pulse connection line and notify the meter to the meter reading center. have.

Description

Remote metering device for detecting pulse signal with real-time}

The present invention relates to a remote meter for monitoring the pulse signal in real time, and more particularly to a remote meter that can detect the disconnection of the pulse connection line.

In general, each household is equipped with a meter for measuring the amount of use such as gas meter, electricity meter, water meter, calorimeter and hot water meter, and the meter reader visits the house every month to read the meter usage. . Therefore, it takes a lot of time to complete the meter reading, and if the meter reader misreads the meter, charge disputes may occur due to unfair collection of charges, crimes that impersonate the meter reader may occur, and labor costs may increase. It became.

Accordingly, various techniques that can be read remotely have been introduced. Generally, a remote meter reads a rotation of the numeric dial of a gas meter, an electric meter, a water meter, a calorimeter and a hot water meter to generate a predetermined pulse signal. By counting the pulse generating circuit and the pulse output from the pulse generating circuit and accumulating the amount of gas, electricity, and water used in the memory and saving them in the memory, and integrating according to the control command input through the interface from the remote meter reading center. It consists of a central control unit that transmits gas, electricity and water usage to the remote meter reading center via an interface, and a power supply unit that supplies power.

However, the function of the line interface is very important when transmitting the integrated usage amount to the remote metering center according to the command signal received from the remote metering center in the remote meter reading device. When something like noise occurs, the remote metering center cannot accurately read it.

1 is a block diagram showing a general remote meter reading device, Figure 2 is a circuit diagram showing a conventional remote meter reading. 1 and 2, a remote meter reading device generally includes a computer 10, a central controller 20, a remote meter 30, and a meter 40. The computer 10 mainly installed in the management room of a large unit house such as an apartment manages the system, and the central control unit 20 which is responsible for the data relay function between the computer 10 and the remote meter 30 is a plurality of remote meter readers. The remote meter 30 connected to 30 and connected to a plurality of meters 40 installed in each home is responsible for reading and storing the amount of use of each meter 40.

Although not shown here, the remote meter reading device 30 includes a battery charging circuit, a power switching circuit, and a power supply unit including a circuit for maintaining a constant voltage, a meter connection part for outputting a pulse signal for a predetermined time to detect a meter reading signal of the meter, and detected. It is composed of a microprocessor for comparing and determining the meter signal and a display unit for sequentially displaying the data of the microprocessor.

The meter 40 is a rotary plate 45 that rotates at a speed corresponding to the amount of use such as a gas meter, electricity meter, water meter, calorimeter and hot water meter, and a magnet 50 installed at an arbitrary position of the rotating plate 45. ) And a reed switch 60 for turning on / off according to the perspective of the magnet 50 installed in the rotating plate 45 to output a pulse signal.

The remote meter reading device 30 is composed of a pull-up resistor (R1), a diode (D1), a capacitor (C1), etc. to output a pulse signal of the meter 40 as the reed switch 4 of the meter 40 is turned on / off. A microprocessor for measuring the amount of use by comparing the meter input unit 80 to be input with the connector 70 for connecting the meter connection unit 80 and the reed switch 60 and the pulse input from the meter connection unit 80 It is comprised with 90.

In this case, since the meter connection part 80 generally needs to continuously recognize the value of the meter 40 to be used even when a power failure occurs, the remote meter 30 has a built-in battery. Therefore, the power source V _BB uses the power source from the power supply circuit in normal use, and uses the battery power even in the case of power failure, thereby recognizing the signal of the meter 40 used during power failure.

The power supply (V _BB) is of the power source (V _BB) is a pull-up resistor (R ₁₎ and the current, and so that the input to the input port (P ₁₎ of the microprocessor (90) via the pull-up resistor (R ₁₎ It is connected to the ground terminal GND through a diode D ₁ and a reed switch 60 to prevent backflow. The capacitor C ₁ is connected between the diode D ₁ and the ground terminal GND to remove noise.

Therefore, when the reed switch 60 is turned on, a low level signal is input to the input terminal of the microprocessor 90, and when the reed switch 60 is turned off, a high level signal is input. .

Here, the meter 40 includes a dry contact method using a magnet 50 and a reed switch 60 and an open collector method using a transistor. When the meter 40 is the dry contact method, both ends of the reed switch 60 are connected to both ends of the condenser C ₁ of the remote meter reading device 30 regardless of polarity, and in the case of the open collector method. It is connected to the remote meter reader 30 in a polarity.

3 is a block diagram showing a conventional remote meter. Referring to Figure 3, five types of remote meters (gas meter, electricity meter, water meter, calorimeter, hot water meter) 110 and the remote meter 100 is far away from the two types of five remote meters (110) The pulse connecting line 120 of the remote meter 100 is connected to the meter. However, when the pulse connection line 120 connected from the five types of remote meters 110 to the remote meter 100 is artificial or disconnected by an animal, the remote meter 100 measures the amount of use of the customer to the display unit 130. Although it is displayed, the remote meter 100 is recognized as not using energy, there is a problem that the meter reading error occurs, because there is no accurate information about the disconnection occurrence time, the bill settlement and complaints from consumers.

4 is a block diagram showing a conventional remote indicating unit. As shown in FIG. 4, the remote indicating unit 140 attaches a magnet to the rotating plate of the gas meter 150 and attaches a reed switch 160 on a case adjacent to the magnet, thereby receiving a pulse signal generated between the magnet and the reed switch. The two wires are delivered to the remote indicating unit 140 remotely installed remotely. At this time, when it is artificial or disconnected by an animal or the like, the remote gas meter 150 measures the amount of use of the customer and displays it on the display unit. However, the remote meter reads as if no energy is used and a meter reading error occurs. And, because there is no accurate information about the disconnection occurrence time, there was a problem that the charge settlement and complaints occur.

Accordingly, the present invention is to solve all the disadvantages and problems of the prior art as described above, by connecting one or two supervisory lines to a pulse connection line connected to a meter and a remote meter in the prior art, the disconnection state and occurrence of the pulse connection line It is an object of the present invention to provide a remote meter that can notify the meter reading center and the current meter value.

1 is a block diagram showing a general remote meter reading apparatus.

2 is a circuit diagram showing a conventional remote meter.

3 is a block diagram showing a conventional remote meter.

4 is a block diagram showing a conventional remote indicating unit.

5 is a block diagram showing a remote meter reading according to the present invention.

6 is a block diagram showing a remote indicating unit according to the present invention.

7 is a block diagram showing another embodiment of the remote meter reading according to the present invention.

<Description of the symbols for the main parts of the drawings>

200. Monitoring line 1 205. Pulse connecting line 1

210. Pulse line 2 220. Remote meter reading

230. Monitoring unit 240. Transceiver

250. Reed switch 260. Supervision line 2

The object of the present invention is to attach a magnet to any one of the number wheels, and when the monitoring unit adjacent to the number wheel detects a magnet, the meter generates a detection signal, and attaches a reed switch to the meter A remote meter reading device for connecting a pulse connecting line to a monitoring unit, comprising: a real-time monitoring of a pulse signal including a predetermined number of monitoring lines connected to the monitoring unit and two lines of pulse connecting lines to determine whether the pulse connecting line is disconnected; Achieved by remote meter reading.

It is preferable that the monitoring line receives the reading value from the monitoring unit when the pulse connection line is disconnected and notifies the reading center of the current reading value through the transmitting and receiving unit, and the number of monitoring lines is preferably one line or two lines.

In addition, the monitoring unit preferably records the disconnection generation time when the pulse connection line is disconnected.

Details of the above object and technical configuration of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

5 is a block diagram showing a remote meter reading according to the present invention. Referring to FIG. 5, the pulse connecting line among the monitoring line 1 200 connected to the remote meter 220 and the pulse connecting lines 205 and 210 connected to the remote meter 220 from a meter such as a gas meter, an electricity meter, a water meter, a calorimeter and a hot water meter 1 (210) is connected to the monitoring line 1 (200) by applying a detection signal continuously from the monitoring unit 230 of the remote meter reader 220 to detect in real time.

The monitoring unit 230 of the remote meter reader 220 is a monitoring line 1 (200) to two lines of pulse connecting lines (205, 210) connected to a meter such as the gas meter, electricity meter, water meter, calorimeter and hot water meter By adding a, when the disconnection occurs in the pulse connection line 1 (210) by artificial or animal, after recording the occurrence time of the disconnection of the pulse connection line 1 (210) and then through the transceiver 240 of the remote meter reader 220 through the reed switch ( The disconnection state of the pulse connection line 1 (210) connected to the circuit, the generation time and the current meter value are notified to the meter reading center.

The configuration of the remote meter reader 220 according to the present invention is largely composed of a meter reader 225, a monitor 230, a display 235, a transceiver 240, a power supply 245, a processor 255.

The monitoring unit 230 is installed on any one of the number wheels of the meter to detect the rotation of the number of the supply by detecting the rotation of the number wheel, which means that when the monitoring unit 230 detects a magnet, the meter 225 It means to generate a detection signal. The magnet is attached to any one of the number wheels.

The meter 225 generates a detection signal, that is, a pulse signal at every rotation period of the installed number wheel. The pulse reading unit 225 resets the timer every time a pulse signal is generated, measures the time between the immediately preceding pulse and the present pulse, and then checks whether a time equal to or greater than the minimum pulse generation period has elapsed. Prevents false pulses by discarding and taking only elapsed pulses.

The monitoring unit 230 detects a pulse signal generated by the meter reading unit 225 and is configured as a magnetic sensor that detects a magnetic field of a magnetic material and outputs an electrical signal. In addition, the monitoring unit 230 is attached to the reed switch 250 to the meter is connected to the pulse connection line 1 (210) having the monitoring line 1 (200).

The display unit 235 is configured as a numeric display panel that counts the number of times the detection signal is generated to indicate the amount of supply of the supply, and receives the detection signal of the meter reading unit 225 in a wired or wireless manner. Preferably, the numeric display panel uses a liquid crystal display (LCD).

The transceiver 240 is responsible for the wireless data transmission and reception with the repeater and the processing unit 255 of the remote meter 220, and the power supply unit 245 does not use the power due to the explosion risk during gas metering, so the battery for safety reasons In use, the life of the battery is preferably about 5 years.

The processor 255 determines whether or not a misreading meter is caused by an electromagnetic effect, and transmits the stored usage data, reading time, and error signal when a reading request command is received through the transmitting / receiving unit 240. Meters are rated according to their usage. For example, if the meter used by the consumer is Class 1, the maximum flow rate per hour (m / h) is 1m, Class 2 is 2m, Class 3 is 3m, and Class 7 is 7m.

Normally, if the meter is 1st grade and there are 3 number wheels below the decimal point, the rotational speed ratio of one number wheel to the top number wheel of the number wheel is 10 to 1, so if the lowest number wheel is 3 ) Cannot do more than 1,000 revolutions per hour. In addition, since the magnet attached to the lowest number wheel generates 1 pulse every 10 revolutions, this is 36 seconds when calculated as the minimum time per pulse. As described above, the processor 255 stores the minimum required time data per pulse calculated for each grade.

6 is a block diagram showing a remote indicating unit according to the present invention. Referring to FIG. 6, the remote indicator connected to the meter of the gas meter can read the meter, and the measurement unit 265 is installed on the lowest number wheel of the meter to detect the use of the feed by detecting the rotation of the number wheel. The measurement unit 265 attaches a reed switch 250 to a meter, and a pulse connecting line 1 210 having a monitoring line 1 200 is connected thereto.

The display unit 275 includes a numeric display panel that counts the number of occurrences of the detection signal to indicate the amount of supply of water, and the power supply unit 280 uses a battery because of the explosion risk when the meter of the gas meter is read.

7 is a block diagram showing another embodiment of the remote meter reading according to the present invention. As illustrated in FIG. 7, two lines of supervisory lines 200 and 260 connected to a remote meter 220 from a meter such as a gas meter, an electricity meter, a water meter, a calorimeter and a hot water meter are connected to two lines of pulses ( Among the 205 and 210, the pulse connecting line 1 210 is connected to the monitoring line 1 200, and the pulse connecting line 2 205 is connected to the monitoring line 2 260 to monitor the 230 of the remote meter reader 220. Monitoring is applied in real time by continuously applying the monitoring signal. The reason for this is to solve the problem that occurs when the remaining pulse connection line 2 (205) is shorted in FIG.

The monitoring unit 230 of the remote meter 220 is connected to two lines of pulse connection lines 205 and 210 connected to a meter such as a gas meter, an electricity meter, a water meter, a calorimeter and a hot water meter. By adding 200 and 260, when disconnection occurs in the pulse connection lines 205 and 210 by artificial or animal, the disconnection time of the pulse connection lines 205 and 210 is recorded, and then the transceiver 240 of the remote meter reader 220 is recorded. The disconnection state of the pulse connection lines 205 and 210 connected to the reed switch 250, the generation time, and the current meter reading value are notified to the meter reading center.

8 is a block diagram illustrating a monitoring process of a remote meter reading apparatus according to the present invention. Referring to FIG. 8, when a predetermined voltage is applied to the pulse connection line (S100), the monitoring line monitors the power of the pulse connection line (S110). The voltage is preferably 3.6V.

If the pulse connection line is continuously monitored in the monitoring line, the monitoring line checks whether the pulse connection line is disconnected at any time, and if the pulse connection line is not monitored, the pulse connection line is disconnected and notifies the meter reading center of the disconnection state of the pulse connection line (S120). . The monitoring of the pulse connection line is made through a monitoring unit, and the voltage application is performed through a power supply unit.

The present invention has been shown and described with reference to the preferred embodiment as described above, but is not limited to the above embodiments and those skilled in the art to which the subject innovation belongs within the scope not departing from the spirit of the present invention. Various changes and modifications will be possible.

Therefore, the remote meter that monitors the pulse signal of the present invention in real time can attach the monitoring line to recognize the disconnection state and the occurrence time of the pulse connection line and notify the meter to the meter reading center. have.

Claims (5)

A magnet is attached to any one of the number wheels, and when the monitoring unit adjacent to the number wheel detects the magnet, the meter generates a detection signal, and a reed switch is attached to the meter to connect the pulse line of two lines to the monitoring unit. In the remote meter to connect, A predetermined number of monitoring lines connected to the monitoring unit and two lines of pulse connecting lines to determine whether the pulse connecting lines are disconnected. Remote meter for monitoring in real time the pulse signal, characterized in that comprises a. The method of claim 1, The monitoring line is a remote meter for real-time monitoring the pulse signal, characterized in that one line or two lines. The method of claim 1, And the monitoring unit monitors a pulse signal in real time when the pulse connection line is disconnected. The method of claim 1, The monitoring line is a remote meter for monitoring the pulse signal in real time, characterized in that receiving the meter reading value from the monitoring unit when the pulse connection line is disconnected to notify the meter reading center the current reading value through the transceiver. The method of claim 1, The pulse connection line is a remote meter for real-time monitoring the pulse signal, characterized in that the voltage of 3.6V is applied.