KR101121128B1 - A Telemetering Terminal - Google Patents

Abstract

The present invention relates to a remote metering terminal, and more particularly, the unique meter number stored in the meter can be used as the terminal ID as it is. The setting operation can be omitted, and even if an error occurs in the communication channel, it can automatically set another communication channel to send and receive information, collect weather information on the weather condition of the repeater, and read the meter information. It can be transmitted to the management server together, so it can collect and utilize weather information of each region without installing a separate meteorological observation device or its transmission means, and it can be used by charging the battery with solar power, and hassle to change power periodically. Remote metering terminal, characterized in that to reduce the The present invention relates to a remote meter reading system and a control method thereof.

Description

Remote Metering Terminal {A Telemetering Terminal}

The present invention relates to a remote metering terminal, and more particularly, the unique meter number stored in the meter can be used as the terminal ID as it is. The setting operation can be omitted, and even if an error occurs in the communication channel, it can automatically set another communication channel to send and receive information, collect weather information on the weather condition of the repeater, and read the meter information. It can be transmitted to the management server together, so it can collect and utilize weather information of each region without installing a separate meteorological observation device or its transmission means, and it can be used by charging the battery with solar power, and hassle to change power periodically. Remote metering terminal, characterized in that to reduce the The present invention relates to a remote meter reading system and a control method thereof.

Currently, the method of reading public energy, such as gas, water, etc., is a method of reading each meter directly by the meter reader. In detail, the meter reader directly looks at the display of the meter and writes the amount of the meter on a checklist or transmits it to the wired / wireless device using a communication means such as a PDA.

In recent years, in order to reduce the hassle that meter readers have to visit the customer who installed the meter every day, a system for remotely reading the meter information and transmitting and receiving the meter information has been developed.

However, even with such a remote metering system, the meter and the remote metering terminal used in the existing remote metering system are uniquely identified so that any meter between the meter and the remote metering terminal when installed on the system can be used. Since it is necessary to set and record whether or not to connect to the meter, new installation or replacement of the meter or remote metering terminal will cause the trouble of having to perform this setting work by the person in charge on site.

In addition, the conventional remote metering system is particularly one of the two remote metering system because the transmission and reception is performed by a predetermined communication channel between each remote metering terminal and repeater, between the repeater and the broadband collector, and between the broadband collector and the management server. When a problem occurs in communication, a problem arises in that transmission and reception of meter information is not performed in the entire remote meter reading system.

In addition, the entire remote metering system requires a great amount of cost and equipment, and there is no method to utilize the equipment of the remote metering system which has such a huge cost for various purposes.

In addition, the existing remote metering terminal has to periodically transmit and receive meter reading information, which also has the need to periodically replace the power consumed accordingly.

The present invention has been made to solve the above problems,

The purpose of the present invention can be used as a unique ID number stored in the meter as the terminal ID as it is possible to omit the operation of setting the meter number or terminal ID between the meter and the remote meter terminal separately when replacing the meter or remote meter terminal The present invention provides a remote metering terminal, a remote metering system using the same, and a method of controlling the same, which can dramatically improve the efficiency of the meter and the utility of a meter or a remote metering terminal.

Another object of the present invention is to set up another communication channel to automatically transmit and receive information even when an error occurs in the communication channel, thereby preventing a situation in which remote meter reading becomes impossible due to a communication error. It is to provide a remote meter reading terminal, a remote meter reading system using the same, and a control method thereof, which can reduce the trouble of having to carry out communication channel setting work by the worker.

Yet another object of the present invention is to collect the weather information on the weather conditions of the area where the repeater is installed and transmit it to the management server along with the meter reading information, utilizing a repeater installed in each area to transmit a separate meteorological observation device or its The present invention provides a remote meter reading terminal that can collect and utilize weather information of each region without installing means, a remote meter reading system using the same, and a control method thereof.

Another object of the present invention can be used to charge the battery with solar power can be used to charge the power of the remote meter reading terminal to periodically replace the power of the remote meter reading can improve the efficiency of management A terminal, a remote meter reading system using the same, and a control method thereof are provided.

Remote meter reading terminal for achieving the above object of the present invention includes the following configuration.

Remote meter reading terminal according to an embodiment of the present invention wired and wireless communication unit connected to the meter; A memory for storing meter reading information received from the meter through the wire / wireless communication unit; ID storage unit for storing the meter number received from the meter through the wired or wireless communication unit as a terminal ID; Wireless communication module for transmitting the meter information and the terminal ID stored in the memory and the ID storage unit to the repeater; by using the unique meter number stored in the meter as a terminal ID can be used separately when replacing the meter or remote meter terminal The operation of setting the meter number or the terminal ID between the meter and the remote meter terminal can be omitted.

The present invention can achieve the following effects by the configuration, combination, and use relationship described above with the present embodiment.

The present invention can use the unique meter number stored in the meter as the terminal ID as it is, the operation of setting the meter number or terminal ID between the meter and the remote meter reading terminal separately when replacing the meter or remote meter reading terminal efficiency of operation It has the effect of drastically improving the utility of the over-meter and the remote meter reading terminal.

According to the present invention, even when an error occurs in the communication channel, it is possible to automatically set a different communication channel to transmit and receive information, thereby preventing a situation in which remote meter reading becomes impossible due to a communication error. It also has the effect of reducing the trouble of having to carry out communication channel setting work in the field.

The present invention can collect the weather information on the weather conditions of the region where the repeater is installed and transmit it to the management server along with the meter reading information, without using a separate meteorological observation device or its transmission means by utilizing the repeater installed in each region It has the effect of collecting and utilizing weather information of each region.

The present invention can be used to charge the battery with solar power can reduce the hassle of having to periodically replace the power of the remote meter reading terminal that consumes power continuously has the effect that can improve the efficiency of management.

1 is a block diagram showing a schematic configuration of a remote meter reading terminal according to an embodiment of the present invention
2 is a schematic diagram of a remote meter reading system according to an embodiment of the present invention.
Figure 3 is a block diagram showing the configuration of a remote meter reading system according to an embodiment of the present invention
4 is a reference diagram for explaining a process of finding the most optimal communication signal channel;
5 is a block diagram of a control method of a remote meter reading system according to an embodiment of the present invention.
6 is a block diagram of a method of transmitting and receiving a meter number.
7 is a block diagram showing a detailed process of an automatic communication channel scanning step;
8 is a block diagram showing the detailed process of the weather information transmission step

Hereinafter, with reference to the accompanying drawings, preferred embodiments of a remote metering terminal and a remote metering system and a control method using the same according to the present invention will be described in detail.

1 is a block diagram showing a schematic configuration of a remote meter reading terminal according to an embodiment of the present invention, Figure 2 is a schematic diagram of a remote meter reading system according to an embodiment of the present invention, Figure 3 is one of the present invention 4 is a block diagram illustrating a configuration of a remote meter reading system according to an embodiment, and FIG. 4 is a reference diagram for explaining a process of searching for an optimal communication signal channel.

1 to 3, the remote meter reading terminal 20 according to an embodiment of the present invention includes a wired and wireless communication unit 210 connected to the meter 10; A memory 220 for storing meter reading information received from the meter 10 through the wire / wireless communication unit 210; ID storage unit 240 for storing the meter number received from the meter 10 through the wired / wireless communication unit 210 as a terminal ID; Wireless communication module 250 for transmitting the meter information and the terminal ID stored in the memory 220 and the ID storage unit 240 to the repeater; By including, the unique meter number stored in the meter can be used as the terminal ID as it is When replacing the meter or remote meter terminal, it is possible to omit the operation of setting the meter number or terminal ID between the meter and the remote meter terminal separately.

The wired / wireless communication unit 210 receives the metering information from the meter 10 and transmits the metering request information to the meter 10. The wired or infrared wireless communication using a dedicated line or a telephone line is performed. (IrDA), Zigbee (Zigbee), RF communication module (Radio Rrequency) can be transmitted and received using a wireless method using any one of Bluetooth (Bluetooth).

The memory 220 stores the received metering information and the like, and when the metering information on the usage amount is received from the meter 10 through the wire / wireless communication unit 210, the received metering information and the like are stored in the memory 220. ) Will be stored. As the memory 220, a hard disk or a RAM that is generally used for recording and storage may be used. In addition, the information is stored in the memory 220 or the management of the stored information is performed by the controller 230 in charge of the overall control of the remote meter reading terminal 20 functions.

The control unit 230 is a part for controlling and managing the functions of the entire remote meter reading terminal 20, by using a central processing unit (CPU), etc., in which a control program is input, the wired / wireless communication unit 210 or the wireless communication module 250. Through the transmission and reception, the memory 220 or the ID storage unit 240 to perform a function such as storing or managing information.

The ID storage unit 240 is a part for storing the received meter number as a terminal ID of the remote metering terminal 20, when receiving a unique meter number from the meter 10 through the wired / wireless communication unit 210. The meter number is stored as a terminal ID as it is. Accordingly, the terminal ID stored in the ID storage unit 240 is transmitted together with the meter reading information to indicate the source of the remote meter reading terminal 20 which is transmitted when the meter information is transmitted in the future. For example, when the unique meter number stored in the meter 10 is 'xxx-yyyy', the remote meter terminal 20 received through the wired / wireless communication unit 210 controls the unique meter number under the control of the controller 230. After using 'xxx-yyyy' as it is, the terminal stores 'T-xxx-yyyy', which displays only 'T' to indicate the terminal in front, as the terminal ID, and then stores meter reading information in the ID storage unit 240. The terminal ID 'T-xxx-yyyy' is transmitted along with the metering information to indicate the source of the remote metering terminal 20 to transmit the time. As such, by utilizing the unique meter number of the meter 10 as a terminal ID of the remote metering terminal 20 as it is, each meter at the time of installation or replacement of the meter 10 or the remote metering terminal 20, which has been pointed out as a conventional problem. The setting operation between the meter 10 and the remote metering terminal 20 that records which meter 10 is connected to which remote metering terminal 20 between the meter 10 and the remote metering terminal 20 can be omitted. Therefore, when installing or replacing the meter 10 or the remote meter reading terminal 20, it is possible to reduce the hassle of having to check and record / change each connection relationship at the site by the operator, and thus in a certain area Used meter (10) or remote meter reading terminal (20) can be used to move to another area without any extra work, the efficiency of installation and replacement work and the utilization of the meter (10) or remote meter reading terminal (20) is remarkable It will be able to improve.

The wireless communication module 250 transmits the meter information or the terminal ID stored in the memory 220 or the ID storage unit 240 to the repeater 30 wirelessly and receives the information from the repeater 30. In addition, a wireless communication module using any one of infrared wireless communication (IrDA), Zigbee, Zigbee, Radio Rrequency, and Bluetooth may be used. In particular, Zigbee, IEEE 802.15.4 Using the wireless network communication module has the advantage of miniaturization and low power communication. According to another embodiment of the present invention, the wireless communication module 250 includes a signal measuring unit 251 that can measure the strength of the communication signal can find and transmit the most optimal communication signal channel by itself It is done.

The signal measuring unit 251 is a measure of the strength of the received communication signal, RSSI (Receive Signal Strength Indication) measurement to convert the strength of the communication signal received by the wireless communication module 250 converted to a digital value to display It has a function to measure the strength of the communication signal as a digital value. Therefore, before transmitting the information to the repeater 30, the wireless communication module 250 first checks whether there is an abnormality of the communication channel by measuring the strength of the communication signal with the previously connected repeater 30 through the signal measuring unit 251. If an abnormality is found in the communication channel and it is impossible to transmit information, the repeater 30 may measure the signal strength with the other repeaters 30 located in the vicinity and measure the highest signal strength. Since the meter reading information is transmitted after setting a new communication channel, even if an error occurs in communication with the specific repeater 30 to which the communication channel is connected, the communication error can be set and transmitted automatically by setting another communication channel. It is possible to prevent the situation that remote meter reading becomes impossible, and when the communication channel is abnormal, the worker can be dispatched to the site to perform the communication channel setting work. It can also reduce the trouble of doing. A detailed description of the communication channel automatic scanning process by the signal measuring unit 251 will be described later.

According to another embodiment of the present invention, the remote metering terminal 20 further includes a solar heat collecting cell 270 to use solar power as a power source together with the battery 260.

The battery 260 is a part for supplying power to the remote meter reading terminal 20, and various primary batteries or secondary batteries which are generally used may be utilized.

The solar heat collecting cell 270 is a portion for integrating sunlight to utilize solar energy as a power source, in particular, the solar heat collecting cell 270 together with the battery 260 to power the remote metering terminal 20. In the case of supplying, it is preferable that a rechargeable secondary battery, a lithium ion battery, is used as the battery 260.

As such, the remote meter reading terminal 20 including the solar heat collecting cell 270 can be used by charging the battery with solar heat, and the hassle of periodically changing the power of the remote meter reading terminal 20 that consumes power continuously. This can reduce management costs, resulting in more efficient management.

2 to 4, a remote meter reading system according to an embodiment of the present invention comprises a plurality of meters (10); A plurality of remote metering terminals 20 respectively connected to the meter 10 to obtain meter reading information on the amount of meter usage from the meter 10 and to wirelessly transmit the meter reading information; A repeater (30) for receiving meter reading information from the remote meter reading terminal (20) and transmitting it wirelessly; A broadband collector 40 which receives meter reading information from the repeater 30 and wirelessly transmits the meter reading information; A management server 50 for receiving meter reading information from the broadband collector 40 and storing and managing the information in a database. The meter 10 has a unique meter number entered in an internal memory 120. When the meter reading information on the usage is transmitted to the remote metering terminal 20 through a wired / wireless communication unit 140, the unique meter number is transmitted together, and the remote metering terminal 20 is connected to the meter 10 wired and wireless communication unit 210 ); A memory 220 for storing meter reading information received from the meter 10 through the wire / wireless communication unit 210; ID storage unit 240 for storing the meter number received from the meter 10 through the wired / wireless communication unit 210 as a terminal ID; Wireless communication module 250 for transmitting the meter information and the terminal ID stored in the memory 220 and ID storage unit 240 to the repeater 30; by including, the unique meter number stored in the meter 10 as it is Can be used as a terminal ID can be omitted when setting the meter number or terminal ID between the meter 10 and the remote metering terminal 20 separately when replacing the meter 10 or remote meter reading terminal 20 do.

The meter 10 is installed in each home or building to read the usage amount of gas or water, and the like. The meter reading unit 110 is obtained by reading the amount of gas or tap water, and the meter reading unit 110. Memory 120 for storing the meter reading information on the acquired usage, wired and wireless communication unit 140 for transmitting the information stored in the memory 120, the metering unit 110, memory 120, wired and wireless communication unit 140 The control unit 130 may control the first half.

The meter reading unit 110 is a portion for reading the amount of gas or water, etc. In the present invention, since the electronic meter for metering the amount of usage is preferable, the meter 110 is also an example, a reed switch sensor and a reed switch Can be used to meter usage electronically.

The memory 120 stores the metering information on the amount of usage acquired through the meter reading unit 110, and is used for recording and storage in the same manner as the memory 220 of the remote metering terminal 20 described above. Hard disk or RAM may be used. In particular, a unique meter number is input to the memory 120 separately from the metering information, so that the meter information is transmitted when the meter reading information on the usage amount is transmitted to the remote meter terminal 20 through the wired / wireless communication unit 140. It is possible to identify which meter information transmitted from the meter reading information transmitted from the meter.

The control unit 130 is a part for controlling and controlling the meter reading unit 110, the memory 120, and the wired / wireless communication unit 140, and uses a central processing unit (CPU) to which a control program is input. ) To perform a function such as a meter reading command, transmission / reception of information through the wired / wireless communication unit 140, information storage or management in the memory 120, and the like.

The wired / wireless communication unit 140 transmits meter reading information to the remote meter reading terminal 20 and also receives meter reading request information from the remote meter reading terminal 20. Alternatively, transmission and reception may be performed using a wireless method using any one of infrared wireless communication (IrDA), Zigbee, RF communication module (Radio Rrequency), and Bluetooth.

Since the remote metering terminal 20 is to use the remote metering terminal 20 according to an embodiment of the present invention as it is, the description of the specific configuration will be omitted to avoid duplicated.

The repeater 30 is configured to receive meter reading information from the remote metering terminal 20, and wirelessly transmits the metering information to the broadband collector 40, a wireless communication module for transmitting and receiving information with the remote metering terminal 20 ( 310, a memory 320 storing meter reading information or a terminal ID transmitted from the remote meter reading terminal 20, a broadband communication module 340 transmitting and receiving information to and from the broadband collector 40, and the wireless communication module. And a control unit 330 for controlling and controlling the overall memory 310, the memory 320, and the broadband communication module 340.

The wireless communication module 310 and the signal measuring unit 311 included therein perform substantially the same functions as the wireless communication module 250 and the signal measuring unit 251 of the remote metering terminal 20 described above. Therefore, detailed description thereof will be omitted in order to avoid redundant descriptions.

The memory 320 stores the metering information or the terminal ID received through the wireless communication module 310, and generally records and stores the same as the memory 220 of the remote metering terminal 20 described above. Hard disk or RAM used for the purpose may be used.

The control unit 330 is a part for controlling and managing the wireless communication module 310, the memory 320, and the broadband communication module 340, and utilizes a central processing unit (CPU) to which a control program is input. The module 310 or the broadband communication module 340 transmits and receives information, and stores or manages information in the memory 320.

The broadband communication module 340 transmits meter reading information and the like stored in the memory 320 to the broadband collector 40 wirelessly and receives information from the broadband collector 40. A CDMA communication module or the like is used. Can be. In addition, the broadband communication module 340 also includes a signal measuring unit 341. The signal measuring unit 341 is substantially the same as the signal measuring unit 251 of the remote metering terminal 20 described above. Since the function is performed, a detailed description thereof will be omitted to avoid duplication.

According to another embodiment of the present invention, the repeater 30 may measure a temperature sensor 360 capable of measuring temperature, a humidity sensor 370 capable of measuring humidity, and an amount of dust such as yellow sand. The dust collecting sensor 380, a weather sensor 390 capable of measuring the presence and intensity of rain and wind, and a weather database 350 storing the measured weather information may be further included.

The temperature sensor 360 is a configuration that can measure the ambient temperature electronically, a general temperature sensor using a characteristic that the electrical resistance changes in accordance with the temperature in the conductor, that is, thermistor, IC temperature sensor and the like can be used.

The humidity sensor 370 may be configured to electronically measure the ambient humidity, and a general humidity sensor such as a thermal conductivity type or an adsorption type using a metal oxide ceramic system, that is, a thermal conductivity humidity sensor and a ceramic humidity sensor may be used.

The dust collecting sensor 380 is configured to measure the amount of dust floating in the surrounding atmosphere, and may use a general dust collecting sensor or a dust sensor for sensing and sensing light transmittance.

The weather sensor 390 is configured to measure the presence or absence of rain, the wind speed of the wind, etc., it is possible to measure the presence or absence of rain or wind strength by using a general optical sensor or pressure sensor.

The meteorological database 350 includes a temperature measured by the temperature sensor 360, a humidity measured by the humidity sensor 370, an amount of dust such as yellow dust measured by a dust collecting sensor 380, and the meteorological sensor ( As a part for storing weather information such as the presence and intensity of the rain measured at 390, a hard disk or a RAM generally used for recording and storage may be used. In addition, the various sensors and the weather database 350 are operated under the control management of the controller 330.

Since the remote meter reading system including the repeater 30 can collect the weather information on the weather condition of the region where the repeater 30 is installed and transmit it to the management server 50 together with the meter reading information, it is installed in each region. By using the repeater 30, it is possible to collect and utilize weather information of each region without installing a separate meteorological observation device or a transmission means thereof.

The broadband collector 40 is configured to receive meter reading information from the repeater 30 and to wirelessly transmit the meter reading information to the management server 50. The broadband collector 40 transmits and receives information with the repeater 30 or the management server 50. A memory 420 for storing meter reading information transmitted from the repeater 30 through the broadband communication module 410, the broadband communication module 410, and the entire memory 420. It may include a control unit 430 for controlling.

Since the broadband communication module 410, the memory 420, and the controller 430 are configured to perform the same functions as the broadband communication module 340, the memory 320, and the controller 330 of the repeater 30 described above, respectively. The description of the specific configuration will be omitted in order to avoid redundant descriptions. The same applies to the signal measuring unit 411 included in the broadband communication module 410. In this case, since the broadband communication module 410 can communicate with the mobile phone as the CDMA communication module is used as described above, the manager uses the CDMA network of the mobile phone in addition to the command signal transmitted from the management server 50. When the command signal for requesting the meter reading information, etc. is transmitted to the broadband communication module 410 of the broadband collector 40, the received signal is read and stored in the memory 420 to the broadband communication module 410. It can also be transmitted to the administrator's mobile phone through, the administrator can check the metering information and the like of the broadband collector 40 using a mobile phone in a remote place, not the place where the management server 50 is located.

The management server 50 is configured to receive meter information from the broadband collector 40, manage it, and transmit various command signals. The broadband communication module 510 transmits and receives information with the broadband collector 40. And a database 520 for storing meter reading information transmitted from the broadband collector 40 through the broadband communication module 510, and a control unit for controlling and controlling the broadband communication module 510 and the entire database 520. 530 may be included.

Since the broadband communication module 510 and the control unit 530 are configured to perform the same functions as the broadband communication module 340 and the control unit 330 of the repeater 30 described above, the description of the specific configuration is repeated. To avoid the

The database 520 is a database for storing meter reading information, etc. transmitted from the broadband collector 40 through the broadband communication module 510. Generally, the hard disk or the RAM is used for recording and storage. And the like can be used.

Hereinafter, referring to FIG. 4, when an error occurs in a communication channel in a remote meter reading system according to an embodiment of the present invention, a process of automatically transmitting and receiving information by scanning an optimal communication channel will be described.

For example, when the remote meter reading terminal 20 has previously transmitted and received with the repeater 30 using the channel ①, it checks whether there is an abnormality of the channel before transmitting the information, and at this time, the communication channel ① If there is an error, the remote meter reading terminal 20 measures the strength of the communication signal with the other repeaters 30 around the optimum communication channel (in this case with the repeater 30) 2 where the highest signal strength is measured. Channel (assuming channel 1)), and transmits meter reading information to the repeater 30 using channel ②. The repeater 30 also checks whether there is an abnormality of the channel before transmitting the information when the transmitter 30 has previously transmitted and received with the broadband collector 40 using the channel # 1. The repeater 30 measures the strength of the communication signal with other broadband collectors 40 in the vicinity, and assumes the optimal communication channel (herein, the channel No. with the broadband collector 40 2) in which the highest signal strength is measured. After setting), the meter information is transmitted to the broadband collector 40 using the channel # 2. A detailed description of the communication channel automatic scanning process will be given later.

Such a remote meter reading system according to an embodiment of the present invention can use the unique meter number stored in the meter 10 as the terminal ID as it is, when the meter 10 or the remote meter terminal 20 is replaced separately meter (10) ) And the operation of setting the meter number or the terminal ID between the remote meter reading terminal 20 can be omitted, and by collecting the weather information on the weather condition of the area where the repeater 30 is installed, the management server (50) Since it can be transmitted to, by using the repeater 30 installed in each region can collect and utilize the weather information of each region without the installation of a separate meteorological observation device or its transmission means, even if an error occurs in communication Since it is possible to automatically send and receive information by setting another communication channel, it is possible to prevent the situation that remote meter reading becomes impossible due to communication error. The operator manually dispatched to the scene it is possible to also reduce the hassle that you need to perform a communication channel setting operation.

5 is a block diagram of a method of controlling a remote meter reading system according to an embodiment of the present invention, FIG. 6 is a block diagram of a method of transmitting and receiving a meter number, and FIG. 7 is a detailed process of an automatic communication channel scanning step. 8 is a block diagram showing a detailed process of the weather information transmission step.

5 to 8, a control method of a remote meter reading system according to an embodiment of the present invention includes a meter 10 for acquiring meter information about a usage amount through a meter reading unit 110 and storing the meter reading information in a memory 120. Reading and storing meter reading information (S1); Meter reading information transmission step (S2) of the meter (10) for transmitting the meter reading information on the usage amount acquired and stored in the reading and storing step (S1) through the wired and wireless communication unit 140; Receiving and reading the meter reading information on the usage of the meter 10 transmitted through the meter reading information transmitting step (S2), and transmitting and receiving step (S3) of the remote meter reading terminal wirelessly transmitting the received meter reading information to the repeater (30); A transmitter / receiver step of receiving a meter reading information from the remote meter reading terminal 20 and transmitting the meter reading information wirelessly to the broadband collector 40 (S4); Receiving meter reading information from the repeater 30, and transmitting and receiving step of the broadband collector for wirelessly transmitting the received meter reading information to the management server (S5); Receiving meter reading information from the broadband collector 40, and transmitting and receiving step (S6) of the management server for storing the received meter reading information in the database 520, the meter reading information transmitting step (S2) includes a meter (10) Including a meter number transmitting step (S21) for transmitting the unique meter number stored in the memory 120 of the meter together with the metering information, and the step of transmitting and receiving (S3) of the remote meter reading terminal in the meter number transmitting step (S21) A terminal for storing the meter number receiving step (S31) for receiving the transmitted meter number and the meter number received in the meter number receiving step (S31) as the terminal ID of the remote metering terminal 20 in the ID storage unit 240. ID storage step (S32), and through the terminal ID storage step (S32) characterized in that it comprises a terminal ID transmission step (S33) for transmitting the terminal ID stored in the ID storage unit 240 with the meter information. It shall be.

In the acquiring and storing the meter reading information (S1), the meter 10 installed in each home or building acquires the meter reading information on the amount of use of gas or water through the meter reader 110, and stores the meter reading information as a memory ( 120) refers to the step of storing.

The meter reading information transmitting step (S2) remotely through the wired / wireless communication unit 140 by the meter 10 periodically or by a request signal to read the meter information, etc. for the usage amount acquired and stored in the meter reading information acquisition and storage step (S1). It refers to the step of transmitting to the meter reading terminal (20). In addition, the meter reading information transmitting step (S2) is a meter number transmitting step of transmitting the unique meter number stored in the memory 120 of the meter 10 together with the metering information to the remote meter reading terminal 20 through the wired / wireless communication unit 140. It may include (S21).

In the transmission / reception step S3 of the remote meter reading terminal, the meter reading information regarding the amount of usage transmitted from the meter 10 through the meter reading information transmitting step S2 is received through the wire / wireless communication unit 210. After storing the received metering information and the like in the memory 220, the stored metering information and the like are periodically transmitted to the repeater 30 through the wireless communication module 250 periodically or by a request signal. In addition, the transmission and reception step (S3) of the remote meter reading terminal is a meter number receiving step (S31) for receiving the meter number transmitted in the meter number transmission step (S21) through a wired and wireless communication unit 210, and the meter number receiving step ( The terminal ID storage step (S32) and the terminal ID storage step (S32) and the terminal ID storage step for storing the meter number received in S31 as a terminal ID of the remote metering terminal 20 in the ID storage unit 240 It may include a terminal ID transmission step (S33) for transmitting the terminal ID stored in the 240 to the repeater 30 through the wireless communication module 250 with the meter information. As such, by using the unique meter number stored in the meter 10 as the terminal ID as it is, the meter number or the terminal between the meter 10 and the remote metering terminal 20 separately when the meter 10 or the remote metering terminal 20 is replaced. Setting the ID can be omitted.

Transmitting and receiving step (S4) of the repeater, the repeater 30 receives the meter reading information and the like transmitted from the remote metering terminal 20 through the transmitting and receiving step (S3) of the remote metering terminal through the wireless communication module 310, After receiving the received meter information and the like in the memory 320 refers to the step of wirelessly transmitting the stored meter information and the like through the broadband communication module 340 periodically or by a request signal.

In the transmitting / receiving step (S5) of the broadband collector, the broadband collector 40 receives meter reading information transmitted from the repeater 30 through the transmitting / receiving step (S4) of the repeater through the broadband communication module 410, and receives the After storing the metering information and the like in the memory 420 refers to the step of transmitting the stored metering information, etc. periodically or by a request signal to the management server 50 through the broadband communication module 410.

Transmitting and receiving step (S6) of the management server receives the meter information and the like transmitted from the broadband collector 40 through the management server 50 through the transmission and reception step (S5) of the broadband collector, through the broadband communication module 510, It refers to the step of storing the received metering information, etc. in the database 520 and storing it, and then transmitting the metering information request signal to the broadband collector 40 through the broadband communication module 510.

5 and 7, the control method of the remote meter reading system according to another embodiment of the present invention is a communication channel for transmitting and receiving the step (S3) of the remote metering terminal automatically set the optimal communication signal channel to transmit and receive In addition, an automatic scan step (S35) is further included, and the communication channel automatic scan step (S35) checks whether there is an abnormality in the wireless communication channel with the repeater 30 before wirelessly transmitting the received meter reading information to the repeater 30. Checking whether there is a communication channel error (S351); A communication channel signal strength measuring step (S352) of measuring an intensity of a communication signal with neighboring repeaters 30 when an abnormality is confirmed in an existing communication channel through the communication channel abnormality checking step (S351); A communication channel setting message transmission step (S353) of transmitting a message for setting a communication channel to the repeater 30 having the highest signal strength through the communication channel signal strength measuring step (S352); A communication channel setting confirmation message receiving step (S354) of receiving a communication channel setting confirmation message from the repeater 30 receiving the message for setting the communication channel; A test message transmission step (S355) of transmitting a test message for confirming whether the communication channel is normally operated when the communication channel setting is confirmed through the communication channel setting confirmation message receiving step (S354); Test confirmation message receiving step (S356) for receiving a message confirming the normal reception of the test message from the repeater 30 received a test message for confirming the normal operation of the communication channel; It is characterized by the ability to find and transmit a signal channel.

The communication channel automatic scanning step (S35) is a step for allowing the remote meter reading terminal 20 to automatically set the optimal communication signal channel through the signal measuring unit 251 to transmit and receive meter reading information and the like. Looking at it,

The communication channel abnormality check step (S351) of the existing wireless communication channel with the repeater 30 before the remote meter reader 20 wirelessly transmits the metering information to the repeater 30 through the wireless communication module 250. In the step of checking whether there is an abnormality through the signal measuring unit 251, it is determined whether normal communication is impossible under a certain intensity of the communication signal measured by the signal measuring unit 251.

The communication channel signal strength measuring step S352 is performed when the communication channel abnormality check step S351 confirms an abnormality in the existing communication channel, with other repeaters 30 through the signal measuring unit 251. The step of measuring the strength of the communication signal.

The communication channel setting message transmission step (S353) transmits a message for setting a communication channel to the repeater 30 having the highest signal strength through the wireless communication module 250 through the communication channel signal strength measuring step (S352). Says a step.

In the communication channel setting confirmation message receiving step (S354), the repeater 30 receiving the message for setting the communication channel from the remote metering terminal 20 through the communication channel signal strength measuring step S352 transmits a communication channel setting confirmation message. When transmitting through the wireless communication module 310 refers to a step in which the remote meter reading terminal 20 receives a communication channel setting confirmation message through the wireless communication module 250.

In the test message transmission step (S355), when the communication channel setting is confirmed through the communication channel setting confirmation message receiving step (S354), a test message for confirming whether the communication channel is normally operated by the remote meter reading terminal 20. Transmitting to the repeater 30 through the wireless communication module 250.

The test confirmation message receiving step (S356) is a test check that the repeater (30) receiving the test message for confirming the normal operation of the communication channel through the test message transmission step (S355) confirms the normal reception of the test message. When the message is transmitted through the wireless communication module 310, the remote meter reading terminal 20 refers to a step of receiving a test confirmation message through the wireless communication module 250.

Such a control method of the remote meter reading system according to the present invention can prevent the situation that the remote meter reading is impossible due to communication error, because even if the communication is abnormal, it can automatically set another communication channel to send and receive information. In addition, when the communication channel is over, the worker can be dispatched to the field to perform the communication channel setting work.

5 and 8, in the method for controlling a remote meter reading system according to another embodiment of the present invention, the transmitting and receiving step (S4) of the repeater includes the weather information about the weather condition around the repeater 30 together with the meter reading information. It includes a weather information transmission step (S41) for transmitting, the weather information transmission step (S41) is a temperature measured by the temperature sensor 360, the humidity measured by the humidity sensor 370, the dust collecting sensor 380 A weather information collection step (S411) of collecting the amount of dust and the like and the weather information of the presence and intensity of the rain measured by the weather sensor 390 measured through; A weather information storage step (S412) of storing the weather information collected through the weather information collecting step (S411) in a weather database 350; The weather information storage step (S412) through the weather information transmission step (S413) for transmitting the weather information stored in the weather database 350 to the broadband collector 40 together with the metering information; thereby, the repeater 30 is installed Characterized in that the weather information for the local weather conditions can be transmitted with the meter reading information.

The meteorological information transmission step (S41) is a step in which the repeater 30 collects weather information about the weather condition around the repeater 30 and transmits it together with the meter reading information.

The weather information collection step (S411) is a repeater 30 is the temperature measured by the temperature sensor 360 under the control of the controller 330, the humidity measured by the humidity sensor 370, through the dust collecting sensor 380 It refers to the step of collecting weather information, such as the amount of dust, such as yellow dust measured by the weather sensor 390, the presence and intensity of the rainstorm.

The meteorological information storage step S412 refers to a step in which the repeater 30 stores the meteorological information collected through the meteorological information collecting step S411 under the control of the controller 330 in the meteorological database 350.

The meteorological information transmission step (S413) is a step of transmitting the meteorological information stored in the meteorological database 350 through the broadband communication module 340 to the broadband collector 40 through the weather information storage step (S412). Say.

Such a method of controlling the remote meter reading system according to the present invention can collect the weather information on the weather condition of the region in which the repeater 30 is installed and transmit it to the management server 50 along with the meter reading information, which is installed in each region. By using the repeater 30, it is possible to collect and utilize weather information of each region without installing a separate meteorological observation device or a transmission means thereof.

In the above, the Applicant has described preferred embodiments of the present invention, but these embodiments are merely one embodiment for implementing the technical idea of the present invention, and any changes or modifications may be made as long as the technical idea of the present invention is implemented. Should be interpreted as being within the scope.

10: meter 20: remote meter reading terminal 30: repeater
40: broadband collector 50: management server
110: meter reading unit 120: memory 130: control unit 140: wired and wireless communication unit
210: wired and wireless communication unit 220: memory 230: control unit
240: ID storage unit 250: wireless communication module 251: signal measuring unit
260: battery 270: solar heat collection cell
310: wireless communication module 311: signal measuring unit 320: memory 330: control unit
340: broadband communication module 341: signal measuring unit 350: weather database
360: temperature sensor 370: humidity sensor 380: dust collecting sensor 390: weather sensor
410: broadband communication module 411: signal measuring unit 420: memory 430: control unit
510: broadband communication module 511: signal measuring unit 520: database 530: control unit

Claims (1)

Wired and wireless communication unit connected to the meter; A memory for storing meter reading information received from the meter through the wire / wireless communication unit; ID storage unit for storing the unique meter number received from the meter through the wired and wireless communication unit as it is a terminal ID; By including a wireless communication module for transmitting the meter information and the terminal ID stored in the memory and ID storage unit to the repeater,
Since the unique meter number received from the meter can be used as the terminal ID, the operation of setting the connection between the meter number and the terminal ID between the meter and the remote meter terminal connected to each other when replacing the meter or the remote meter terminal can be omitted. Remote meter reading terminal, characterized in that.

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