KR200250381Y1 - Wireless meterage system for fluid on network - Google Patents

Abstract

The wireless flow rate meter reading system using the network according to the present invention is a flow rate metering system for measuring and reading the flow rate of tap water, the flow rate metering system measures the flow rate and processes the flow rate measurement value in its own microcomputer to transmit wirelessly Flow meter; and

It is characterized in that it comprises an indoor monitor for receiving a wireless signal transmitted from the flow meter to confirm this at home and to transmit the flow data from the flow meter to a central computer using a network.

According to the present invention, the detection of the flow rate of tap water and the like is performed remotely through wireless data communication such as a home, and the data is transmitted to the central computer through the network to manage the meter reading for checking the meter usage. Therefore, the cost saving effect is very excellent.

Description

Wireless meter reading system using a network {WIRELESS METERAGE SYSTEM FOR FLUID ON NETWORK}

The present invention relates to a wireless wireless meter reading system using a network, and more particularly, converts the flow of tap water, etc. into electrical energy, and then measures the flow rate using the same, and simultaneously acquires the measured flow rate data from outside. The present invention relates to a flow meter reading system for managing data by transmitting the data to a central computer using a network.

Conventionally, a flow meter such as tap water is installed in the ground of the meter body so that the flow pipe buried in the ground penetrates the ground and penetrates the meter body, and the main body of the meter is opened and closed by a cover to protect the meter. . Therefore, the water meter reader reads the water meter by opening the cover and checking the scale of the meter installed inside the main body of the meter.

If the water meter is installed outdoors, the meter reader can easily read the water meter regardless of whether there is a person in each home or shopping mall. Since there is no person in each home or mall, it is impossible to read the water meter, so the meter readers have to visit several times.

Various methods for improving such a problem have been proposed, but there is a hassle that the meter reader has to confirm by using the handy terminal.

The present invention has been made to solve the above-described problems of the prior art, the technical problem to be achieved by the present invention is to perform the detection of the flow rate of tap water, such as remotely via wireless data communication to the flow rate used in homes through the indoor monitor The present invention provides a flow rate wireless meter reading system that can be identified and transmits and manages data to a central computer using a network.

1 is a system configuration of a flow rate wireless meter reading system using a network according to the present invention.

2 is a system block diagram of a flow rate wireless meter reading system using a network according to the present invention.

Figure 3 is a cross-sectional view showing the meter separated by the upper meter and the lower meter of the flow rate wireless meter reading system using the network according to the present invention.

Figure 4 is a circuit block diagram of the meter micom of the flow rate wireless meter reading system using the network according to the present invention.

Explanation of symbols on the main parts of the drawings

10: water meter 12: hot water meter 14: gas meter

16: integrated power meter 18: indoor monitor 20: central computer

50: meter lower 60: meter upper

In the flow rate wireless metering system using the network according to the present invention in the flow rate metering system for measuring and metering the flow rate of tap water,

The flow meter reading system is a flow meter for measuring the flow rate and wirelessly processing the flow rate measurement value in its own microcomputer; And

It is characterized in that it comprises an indoor monitor for receiving a wireless signal transmitted from the flow meter to confirm this at home and to transmit the flow data from the flow meter to a central computer using a network.

The meter consists of a meter bottom and a meter top,

The lower part of the meter is a flow inlet through which the flow rate is introduced, a flow outlet through which the flow rate is discharged, a rotary blade that rotates by a rotational speed proportional to the inflow and discharge of the flow rate, and a counter (Counter) provided at an upper side of the rotary shaft for the rotary wing; It comprises a permanent magnet provided on one side of the counter and a reed switch (Read Switch) located at the top of the lower part of the meter,

The upper portion of the meter is preferably configured to include a microcomputer for receiving the flow rate data generated by the on-off operation of the reed switch according to the rotation of the permanent magnet to perform internal calculation and transmit it to the outside through the antenna.

In addition, it is preferable to further include a battery in the upper portion of the meter to supply the necessary power to each part of the upper portion of the meter.

In addition, the indoor monitor is preferably configured to further include an LCD (LCD) for the user convenience.

Preferably, the central computer transmits the usage fee and the date data to the indoor monitor using the flow rate data and the date data of the meter.

Hereinafter, a preferred embodiment of a flow rate wireless meter reading system using a network according to the present invention with reference to the accompanying drawings will be described in detail.

1 is a system configuration diagram of a wireless flow rate meter reading system using a network according to the present invention, Figure 2 is a system block diagram of a wireless flow rate meter reading system using a network according to the present invention, Figure 3 using a network according to the present invention 4 is a cross-sectional view showing the meter of the flow rate wireless meter reading system separately from the upper part and the lower part of the meter, and FIG. 4 shows a circuit block diagram of the meter micom of the flow rate meter reading system using the network according to the present invention.

According to the system configuration diagram according to FIG. 1, when the measured values from various meters such as the water meter 10, the hot water meter 12, the gas meter 14, and the total power meter 16 are converted into wireless transmissions, In addition, the indoor monitor 18 receiving the received value displays the measured value to the user and transmits data to the central computer 20 connected through the network. The central computer 20 which transmits this data manages various measurement values in a database, calculates a usage fee according to the measurement values, and transmits them to the user's indoor monitor 18 for display.

According to the system block diagram according to FIG. 2

When the reed switch is operated due to the rotation of the counter of the meter, the signal is detected at the read switch signal detection stage 24 of the meter mounting unit 22 and input to the micom 26. The microcomputer 26 is operated by the power supplied from the battery 28. The detection signal once input to the microcomputer 26 is converted into a wireless signal through the RF module 30 and then transmitted through its own antenna.

The radio signal thus transmitted is input to an indoor monitor 32 such as a house. The indoor monitor 32 operates at a power supply of 220V 34, converts a wireless signal received through its RF module 36 into an electric signal, inputs it to the microcomputer 38, and processes the same to process the LCD. If the output to (40), it can be checked with the naked eye at home. This is transmitted to a central computer 44 which is connected via a network such as a modem or power line 42. As such, the fee is calculated based on the numerical data on the flow rate input to the central computer 44, and the date data is calculated in the microcomputer 38 of the user's indoor monitor 32 through the network, and then the LCD 40 is used. Will print to

The central computer 44 preferably transmits advertisements to the indoor monitor 32 for display.

The battery 28 on the top of the meter is preferably a 3V lithium battery that can be used for a long time.

According to the cross-sectional view showing the meter according to Figure 3 divided into the upper part and the lower part of the meter, the lower part of the meter 50 is provided with a counter (Counter) provided on the upper side of the rotating shaft 52 for the rotary blade 51 of the lower part of the meter ( 54 and a permanent magnet 56 provided at one side of the counter 54 and a read switch 58 located at the top of the lower part of the meter 50. The upper part of the meter 60 is RF It consists of a module (62), a battery (PCB) 68 consisting of a battery (64) and a micom (66), and an antenna (70).

In the process in which the flow rate of tap water or the like flows in through the flow inlet 72 and is discharged to the flow discharge outlet 74, the rotary blade 51 rotates by a rotational speed proportional to the flow rate of the passage. It rotates, and thus the counter 54 provided on the upper side of the rotating shaft also rotates. Rotation of the counter 54 rotates the permanent magnet 56 provided on one side of the counter 54 to attract the reed switch 58 by magnetic force. At this time, the reed switch 58 is on / off (On / Off) operation and the electrical signal generated at this time is input to the microcomputer 66 through the RF module 62 the integrated value measured the flow rate After the conversion to the external transmission through the antenna 70.

According to the circuit block diagram of the meter micom according to FIG. 4, the central processing unit 82 in the microcomputer receives an electrical signal generated by the ON / OFF operation of the reed switch 80 operating according to the flow of the flow. The flow rate of the meter is calculated by the central processing unit 82 according to the switching value of the dip switch 86, that is, the value matched with the indoor monitor. The RF module 88 converts it to a radio signal and outputs the same through the antenna 90. The microcomputer also uses a battery 92, such as a lithium battery, and uses a power switch 94 to cut off the power of the microcomputer to turn on / off the power.

Although the embodiments of the present invention have been described in detail as described above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to the range substantially equivalent to one embodiment of the present invention.

According to the present invention, the detection of the flow rate of tap water and the like is performed remotely through wireless data communication such as a home, and the data is transmitted to the central computer through the network to manage the meter reading for checking the meter usage. Therefore, the cost saving effect is very excellent.

In addition, by using an indoor monitor equipped with an LCD (LCD) installed in the house, the user can easily check the information, such as current water accumulation amount and date data, without visually opening the lid of the meter.

In addition, displaying an advertisement on the bottom or one side of the LCD will have the effect of generating advertising revenue.

Claims (6)

In the flow rate metering system which measures and reads the flow volume of tap water, The flow meter reading system is a flow meter for measuring the flow rate and wirelessly processing the flow rate measurement value in its own microcomputer; And Receiving a wireless signal transmitted from the flow meter and confirming it at home, and further includes an indoor monitor for transmitting the flow data from the flow meter to the central computer using a network, the flow rate wireless using the network Meter reading system. According to claim 1, wherein the meter is composed of the meter below and the meter above, The lower part of the meter is a flow inlet through which the flow rate is introduced, a flow outlet through which the flow rate is discharged, a rotating blade rotating by a rotational speed proportional to the inflow and discharge of the flow rate, and a counter (Counter) provided at an upper side of the rotating shaft for the rotating wing; It comprises a permanent magnet provided on one side of the counter and a reed switch (Read Switch) located at the top of the lower part of the meter, The upper part of the meter includes a microcomputer that receives the flow data generated by the on-off operation of the reed switch according to the rotation of the permanent magnet and performs internal calculation and transmits it to the outside through an antenna. Flow rate meter reading system using. The wireless meter reading system using a network according to claim 2, further comprising a battery on the upper part of the meter so as to supply necessary power to each part of the upper part of the meter. 4. The wireless wireless meter reading system using a network according to claim 3, wherein the battery on the upper part of the meter is a 3V lithium battery. The wireless wireless meter reading system using a network according to claim 1, wherein the indoor monitor further comprises an LCD to make it convenient for a user to check. The flow rate controller of claim 1, wherein the central computer stores the flow rate data and the date of the meter. Wireless meter reading system using a network, characterized in that the use of the data to transmit the usage fee and date data to the indoor monitor.