JPH11272976A - Automatic meter inspection system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate the connection of an automatic inspection meter and to improve the reliability by automating the management of correspondence relation between a terminal and the automatic inspection meter on a communication line. SOLUTION: The automatic inspection meter 4 with an ID number is connected to the terminal 3 connected to a center device 1 through the communication line consisting of a telephone line 5 and a power distribution line; and the terminal 3 sends an ID number call command, the automatic inspection meter 4 sends its ID number back to the terminal 3, and the ID number is stored in an ID number storage memory 36 and sent to the center device 1. The center device 1 holds the sent ID number as management data of the terminal 3 and automatic inspection meter 4. Then, a communication with the terminal 3 is performed by using the ID number as an address.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a meter reading value of an automatic meter reading meter installed in a remote place by reading a meter reading value of an automatic meter reading meter and transmitting it to a center device through a communication line. The present invention relates to an automatic meter reading system that enables a center device to automatically collect data.

[0002]

2. Description of the Related Art In a conventional automatic meter reading system, a telephone line or a distribution line is used as a communication line connecting a terminal and a center device. FIG. 7 is a diagram showing a configuration of a system when a telephone line is used as a communication line. In this system, a center device 1 and a terminal 3 are connected by a telephone line 5, and a plurality of automatic meter reading meters 4 are connected to the terminal 3.
Are connected via the communication line 7, respectively. Here, the terminal 3 in FIG. 7 is configured as shown in FIG. The terminal 3 has a CPU 31 for performing overall control, a communication terminal 37 to which the communication line 7 is connected, and communication I / F circuits 32a to 32c for performing communication with the automatic meter reading meter 4 connected via the communication terminal 37. 32c,
It comprises a modem circuit 33 to which the telephone line 5 is connected. In this system, since a plurality of automatic meter reading meters 4 are connected to the terminal 3, the center device 1 specifies the number of the communication terminal 37 to which the automatic meter reading meter is connected to the terminal 3, thereby automatically reading the meter. Meter 4 is specified and meter readings are collected.

FIG. 8 is a diagram showing the configuration of a system in which a telephone line and a distribution line are used as a communication line connecting a terminal and a center device. In this system, a relay device 2 is installed between a center device 1 and a terminal 3, a telephone line 5 is provided between the center device 1 and the relay device 2, and a connection is provided between the relay device 2 and a plurality of terminals 3. The wire 6 is used. Each terminal 3 is connected to one automatic meter reading meter 4 via a communication line 7. Here, terminal 3 in FIG.
Is configured as shown in FIG. The terminal 3 includes a CPU 31 that performs overall control, a communication terminal 37 to which the communication line 7 is connected,
A communication I / F circuit 32 for communicating with the automatic meter reading meter 4 connected via the communication terminal 37, a distribution modem circuit 34 to which the distribution line 6 is connected, and a transmission address for distribution line conveyance are stored. And a transmission address storage memory 35. In this system, since one automatic meter reading meter 4 is connected to each terminal 3, a transmission address for specifying the terminal 3 is stored in the transmission address storage memory 35 of the terminal 3 in advance. Thus, the center device 1 specifies the terminal 3, that is, the automatic meter reading meter 4 by specifying the transmission address, and collects the meter reading value of the automatic meter reading meter 4.

[0004]

As described above, in the conventional automatic meter reading system, the center device 1 needs to manage the number of the communication terminal 37 to which the automatic meter reading meter 4 is connected or the transmission address of the terminal 3. Nevertheless, center device 1
Communication terminal numbers and transmission addresses may be mistaken due to input mistakes on the side, field work mistakes, and the like. In this case, the management data of the center device 1 has a content different from the local connection state, and based on the management data of the incorrect content, when the center device 1 starts collecting meter reading values for the terminal 3, A malfunction has occurred, such as a communication error occurring, making it impossible to collect meter readings, or erroneously collecting meter readings from another automatic meter even if communication is possible.

[0005] In order to avoid these situations, the terminal
3.When connecting the automatic meter reading meter 4, check the terminal number of the communication terminal 37 to be connected, or check the transmission address registered in the terminal 3, and perform an operation test to check the management data registered in the center device 1. It was necessary to check for errors, and the workability was not good. Therefore, the present invention
An object of the present invention is to automate management of a correspondence relationship between a terminal on a communication line and an automatic meter reading meter in an automatic meter reading system, thereby simplifying connection work of the automatic meter reading meter and improving reliability.

[0006]

In order to solve the above-mentioned problems, a first aspect of the present invention is to connect a plurality of automatic meter reading meters to a terminal connected to a center device via a communication line. The terminal reads the meter reading of the meter reading meter and transmits it to the center device via the communication line,
In an automatic meter reading system in which a center device collects meter readings of an automatic meter reading meter, an ID number calling command is transmitted to an automatic meter reading meter having an ID number and a plurality of connected automatic meter reading meters at a terminal. Means and the automatic meter reading meter, and the ID number is called in response to an ID number calling command from the terminal.
A means for returning the number, a memory in the terminal for storing the ID number sent from each automatic meter reading meter, and a memory in the terminal for connection based on the ID number stored in the memory. Means for identifying and managing a plurality of automatic meter reading meters.

A second aspect of the present invention is the terminal according to the first aspect, wherein the terminal reads the ID number stored in the memory and transmits the ID number to the center device via a communication line;
In the center device, the ID number sent from the terminal is stored, and the automatic meter reading meter is identified and identified based on the ID number.
Management means.

According to a third aspect of the present invention, one automatic meter reading meter is connected to each of a plurality of terminals connected to a center device via a communication line, and the terminal reads the meter reading value of the automatic meter reading meter and reads it. In the automatic meter reading system, in which the center device collects the meter readings of the automatic meter reading by transmitting to the center device via a communication line, the automatic meter reading having an ID number is connected to the automatic meter reading connected to the terminal. Means for sending an ID number call command to the meter,
A means for returning an ID number in response to an ID number calling command from the terminal, a memory for storing the ID number sent from the automatic meter reading meter, Means for reading an ID number stored in a memory and transmitting the ID number to a center device via a communication line;
The center device is characterized by having an ID number sent from a terminal, and means for identifying and managing the terminal or the automatic meter reading meter based on the ID number.

A fourth aspect of the present invention is characterized in that, in the third aspect of the invention, an ID number held in a memory of each terminal is used as a transmission address of the terminal.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIGS. 1 and 4 show the embodiments of the first and second aspects of the present invention. FIG. 4 is a block diagram showing an entire system, and FIG. 1 is a block diagram showing a configuration of a terminal. In this embodiment, as shown in FIG. 4, a center device 1 and a terminal 3 are connected by a telephone line 5, and the terminal 3 has a plurality of automatic meter reading meters 4 having ID numbers.
Are connected via the communication line 7, respectively.

In FIG. 4, the center device 1 and the terminal 3 are 1
Although connected one-to-one, a plurality of terminals 3 may be connected to the center apparatus 1 in some cases. As shown in FIG. 1, the terminal 3 communicates with a CPU 31 that performs overall control, a communication terminal 37 to which the communication line 7 is connected, and an automatic meter reading meter 4 that is connected through the communication terminal 37. Communication I / F circuits 32a to 32c, modem circuit 33 to which telephone line 5 is connected, ID of automatic meter reading meter
It is composed of an ID number storage memory 36 for storing numbers.

Next, the operation of this system will be described. The terminal 3 sends a command from the CPU 31 to the communication I / F circuit 32a according to a command from the center device 1, periodic processing, processing at power-on, and the like.
An ID number calling command message is transmitted to the automatic meter reading meter 4 via the. Here, if the automatic meter reading meter 4 is connected to the terminal 3 as shown in FIG. 4, the automatic meter reading meter 4 that has received the response responds and sends the registered ID number to the communication I / F circuit 32a. Return to CPU31 via CPU31 that received the ID number
Recognizing it stores it in the ID number storage memory 36a.

If an automatic meter reading meter is not connected to the communication I / F circuit 32a, the CPU 31 transmits an automatic meter reading ID number call command message from the CPU 31 and returns no response.
The CPU31 recognizes that the automatic meter reading meter is not connected, and notifies the ID to that effect.
It is stored in the number storage memory 36a. Thereafter, the communication I / F circuit 32
b, the same operation is performed for the communication I / F circuit 32c, and the connection status of the automatic meter reading meter to the ID number storage memories 36b and 36c,
Remember the number.

[0014] Thus, the terminal 3 grasps the connection status of the automatic meter reading meter 4 and all the connected automatic meter reading meters 4.
When the ID number is acquired, the information is sent to the center device 1 via the telephone line 5, and the center device 1 holds the information as management data. Thereby, the center device 1
Grasps which automatic meter reading meter 4 to be meter-reading is connected to which communication I / F circuits 32a to 32c of which terminal 3,
Thereafter, the terminal 3 and the automatic meter reading meter 4 are managed based on the ID number.

That is, when the center device 1 communicates with the automatic meter reading meter 4 via the telephone line 5, the center device 1 sends an automatic meter reading to the terminal 3 to which the corresponding automatic meter reading meter 4 is connected. Specify the ID number of the meter. Upon receiving the request, the CPU 31 of the terminal 3 compares the specified ID number with the ID number stored in the ID number storage memory 36, and if the ID numbers match, selects the corresponding communication I / F circuit 32. Then, communication with the automatic meter reading meter 4 is performed, and the meter reading value of the automatic meter reading meter 4 is obtained. Next, the obtained meter reading data is stored in the terminal 3.
Sent to the center device 1.

In this embodiment, the terminal 3 reads out and stores the ID number of the automatic meter reading meter 4 connected to the communication terminal 37, and uses the stored ID number for selecting the communication terminal 37. This eliminates the need for managing the data related to the terminal number of the communication terminal 37 in the center device 1, which has been performed in the system described above, and has the effect of saving labor for maintenance work. This also prevents the management data from mismatching. Furthermore, by collecting the association between the ID number and the communication terminal 37 stored in the terminal 3 by the center device 1, the center device 1 can grasp the connection state of the automatic meter reading meter 4 in the terminal 3. Similarly, when a device abnormality occurs in the automatic meter reading meter 4 or the like, it becomes possible to specify the communication I / F circuits 32a to 32c at the location where the center device 1 has a problem, and to perform on-site work from the center device 1 side. Can be instructed.

FIGS. 2 and 5 show claims 3 and 4.
FIG. 5 is a block diagram showing the entire system, and FIG. 2 is a block diagram showing the configuration of a terminal. In this embodiment, as shown in FIG. 5, a relay device 2 is installed between a center device 1 and a plurality of terminals 3, and a telephone line 5 connects the relay device 2 between the center device 1 and the relay device 2. 2 and a plurality of terminals 3 are connected by a distribution line 6. Each terminal 3 is connected to an automatic meter reading meter 4 having an ID number one by one via a communication line 7.

In FIG. 5, the center device 1 and the relay device 2
Are connected one-to-one, but a plurality of relay apparatuses 2 may be connected to the center apparatus 1 in some cases. As shown in FIG. 2, the terminal 3 is used to communicate with a CPU 31 that performs overall control, a communication terminal 37 to which the communication line 7 is connected, and an automatic meter reading meter 4 that is connected via the communication terminal 37. It comprises a communication I / F circuit 32, a delivery modem circuit 34 to which the distribution line 6 is connected, and an ID number storage memory 36 for storing the ID number of the automatic meter reading meter.

Next, the operation of this system will be described. Each terminal 3 receives a command from the center device 1 via the relay device 2, a periodic process, a process at power-on, etc.
To the automatic meter reading meter 4 via the communication I / F circuit 32
Send the number call command message. Here, if the automatic meter reading meter 4 is connected to the terminal 3 as shown in FIG. 5, the automatic meter reading meter 4 that has received the response responds and sends the registered ID number to the communication I / F circuit 32. Return to CPU31 via When recognizing the ID number, the CPU 31 stores the ID number in the ID number storage memory 36.

If an automatic meter reading meter is not connected to the communication I / F circuit 32, the CPU 31 transmits an automatic meter reading ID number call command message, and then receives no response.
The CPU31 recognizes that the automatic meter reading meter is not connected, and notifies the ID to that effect.
It is stored in the number storage memory 36.

Thus, the connection status of the automatic meter reading meter 4 to which each terminal 3 is connected is grasped.
When the ID number of the connected automatic meter reading meter 4 is obtained, the information is sent to the center device 1 via the distribution line 6, the relay device 2, and the telephone line 5, and the center device 1
Is stored as management data. As a result, the center device 1 determines which terminal 3
After that, the terminal 3 and the automatic meter reading meter 4 are managed based on the ID number, and the ID number is used as the transmission address of the terminal 3.

That is, the center device 1 is an automatic meter reading meter 4
When communicating with the automatic meter reading meter, the center device 1 sends a signal to the terminal 3 to which the corresponding automatic meter reading meter 4 is connected and the relay device 2 connected via the distribution line 6 to the automatic meter reading meter I.
Specify the D number. The relay device 2 transmits the specified ID number to each terminal 3 via the distribution line 6. Each terminal 3 receives the transmitted ID number and the ID stored in the ID number storage memory 36.
Compare the numbers, if the ID numbers match, recognize the transmission address of the terminal itself, communicate with the relay device 2, obtain the meter reading of the automatic meter meter 4, and send the meter reading data to the relay device 2. . The relay device 2 further sends the meter reading value data to the center device 1.

In this embodiment, the ID number of the automatic meter reading meter 4 connected to the communication terminal 37 of the terminal 3 is
By reading and storing the ID number and using the stored ID number as the transmission address of the terminal 3, the management of the data relating to the transmission address in the center device 1, which was performed in the conventional system, becomes unnecessary, and the maintenance work can be performed. The effect of labor saving can be obtained. This also prevents the management data from mismatching.

Further, the transmission from the center device 1 to the automatic meter reading meter 4 becomes possible by using the ID number of the automatic meter reading meter 4, which is the last stage in the transmission, as the transmission address. Also, the ID number stored in the terminal 3 is stored in the center device 1
In the center device 1, the connection state between each terminal 3 and the automatic meter reading meter 4 can be grasped. Similarly, when a device error occurs in the automatic meter reading meter 4 or the like,
The center device 1 can identify the defective terminal 3, and the center device 1 can give an instruction about the on-site work.

FIGS. 3 and 6 show claims 1 and 2.
FIG. 6 is a block diagram showing an entire system, and FIG. 3 is a block diagram showing a configuration of a terminal. In this embodiment, as shown in FIG. 6, the relay device 2 is installed between the center device 1 and the terminal 3, and the relay device 2 is connected between the center device 1 and the relay device 2 by the telephone line 5.
And a plurality of terminals 3 are connected by a distribution line 6. In addition, a plurality of automatic meter reading meters 4 having ID numbers are connected to the terminals 3 via communication lines 7, respectively.
In FIG. 6, the center device 1 and the relay device 2 are connected one to one, but a plurality of relay devices 2 may be connected to the center device 1 in some cases.

As shown in FIG. 3, the terminal 3 communicates with a CPU 31 for performing overall control, a communication terminal 37 to which the communication line 7 is connected, and an automatic meter reading meter 4 connected via the communication terminal 37. It comprises a communication I / F circuit 32a to 32c for carrying out, a delivery modem circuit 34 to which the distribution line 6 is connected, and an ID number storage memory 36 for storing the ID number of the automatic meter reading meter.

Next, the operation of this system will be described. Each terminal 3 receives a command from the center device 1 via the relay device 2, a periodic process, a process at power-on, etc.
To the automatic meter reading meter 4 through the communication I / F circuit 32a.
Send the D-number call command message. Here, if the automatic meter reading meter 4 is connected to the terminal 3 as shown in FIG.
The number is returned to the CPU 31 via the communication I / F circuit 32a. When recognizing the ID number, the CPU 31 stores it in the ID number storage memory 36a.

Here, if the automatic meter reading meter is not connected to the communication I / F circuit 32a, the CPU 31 transmits an automatic meter reading ID number calling command message, and there is no response.
The CPU31 recognizes that the automatic meter reading meter is not connected, and notifies the ID to that effect.
It is stored in the number storage memory 36a. Thereafter, the communication I / F circuit 32
b, the same operation is performed for the communication I / F circuit 32c, and the connection status of the automatic meter reading meter to the ID number storage memories 36b and 36c,
Remember the number.

In this way, when each terminal 3 grasps the connection status of the automatic meter reading meters 4 connected to each terminal and acquires the ID numbers of all the connected automatic meter reading meters 4, the information is distributed. The data is sent to the center device 1 via the electric wire 6, the relay device 2, and the telephone line 5, and is stored in the center device 1 as management data. Thereby, the center device
1 grasps the automatic meter reading meter 4 to be measured, which communication I / F circuit 32a to 32c of which terminal 3 is connected, and thereafter, based on the ID number, the terminal 3 and the automatic meter reading meter 4 To manage

This embodiment is a combination of the embodiment shown in FIGS. 1 and 4 and the embodiment shown in FIGS. 2 and 5, and has the same effects as the respective embodiments. Can be In each of the embodiments described above,
Since the ID number of the automatic meter reading meter 4 is used for selecting the transmission address of the terminal 3 and the communication terminal 37, the composition of the message in the transmission between the center device 1 and the terminal 3 can be unified.

[0031]

As described above, according to the present invention, each of the automatic meter reading meters connected to the terminal is provided with an ID number, and the terminal first calls up and stores the ID number. By automatically managing meters based on their ID numbers, the checking work when connecting an automatic meter reading meter to the terminal is simplified, and communication errors and malfunctions due to connection mistakes and input mistakes are eliminated. Also, the reliability of the system is improved.

[Brief description of the drawings]

FIG. 1 is a block diagram of a terminal according to an embodiment of the present invention.

FIG. 2 is a block diagram of a terminal according to an embodiment of the present invention.

FIG. 3 is a block diagram of a terminal according to another embodiment of the present invention.

FIG. 4 is a block diagram showing an entire system according to the first and second embodiments of the present invention;

FIG. 5 is a block diagram showing an entire system according to the third and fourth embodiments of the present invention.

FIG. 6 is a block diagram showing an entire system according to another embodiment of the first and second aspects of the present invention.

FIG. 7 is a block diagram showing the entire system of a conventional example.

FIG. 8 is a block diagram showing the entire system of a conventional example.

FIG. 9 is a block diagram showing a conventional terminal.

FIG. 10 is a block diagram showing a conventional terminal.

[Explanation of symbols]

 1 Center device 2 Relay device 3 Terminal 4 Automatic meter reading meter 5 Telephone line 6 Distribution line 7 Communication line 31 CPU 32,32a to 32c Communication I / F circuit 33 Modem circuit 34 Delivery modem circuit 36,36a to 36c ID number storage memory 37 Communication terminal

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Isomori 1-7-1, Yurakucho, Chiyoda-ku, Tokyo Inside Toko Electric Co., Ltd. (72) Inventor Noriyuki Karasawa 1-7-1, Yurakucho, Chiyoda-ku, Tokyo Inside Toko Electric Co., Ltd. (72) Inventor Seiya Takano 1-1-1, Tanabe Nitta, Kawasaki-ku, Kawasaki City, Kanagawa Prefecture Inside Fuji Electric Co., Ltd. (72) Inventor Koji Shimizu 1-1, Tanabe Nitta, Kawasaki-ku, Kawasaki City, Kanagawa Prefecture No. Fuji Electric Co., Ltd. (72) Inventor Shinkichi Teramoto 1-1, Tanabe Nitta, Kawasaki Ward, Kawasaki

Claims (4)

[Claims] A plurality of automatic meter reading meters are connected to a terminal connected to the center device via a communication line, and the terminal reads the meter reading value of the automatic meter reading meter and transmits it to the center device via a communication line. In the automatic meter reading system in which the center device collects the meter readings of the automatic meter reading, the automatic reading meter having an ID number and the ID number calling for a plurality of connected automatic meter reading terminals at the terminal. Means for sending commands, Means for returning the ID number in response to the ID number calling command from the terminal in the automatic meter reading meter, and Means for storing the ID number sent from each automatic meter reading meter in the terminal And a means for identifying and managing a plurality of automatic meter reading meters connected to the terminal based on the ID number stored in the memory. Automatic meter reading system. 2. The automatic meter reading system according to claim 1, wherein the terminal includes a means for reading an ID number stored in a memory and transmitting the ID number to a center device via a communication line. The ID number sent from is retained, and the automatic meter reading meter is identified and
An automatic meter reading system, comprising: a managing unit; 3. A single automatic meter reading meter is connected to each of a plurality of terminals connected to the center device via a communication line, and the terminal reads the meter reading value of the automatic meter reading, and reads it via the communication line. By transmitting to the center device,
In the automatic meter reading system where the center device collects the meter readings of the automatic meter reading, the automatic meter reading with ID number and the automatic meter reading meter connected to the terminal
Means for sending an ID number calling command; means for returning an ID number in response to an ID number calling command from a terminal in an automatic meter reading meter; and ID number sent from the automatic meter reading meter for a terminal. A means for reading the ID number stored in the memory in the terminal and transmitting the ID number to the center device via a communication line; and an ID number sent from the terminal in the center device. And a means for identifying and managing a terminal or an automatic meter reading meter based on the ID number of the automatic meter reading system. 4. The automatic meter reading system according to claim 3, wherein an ID number stored in a memory of each terminal is used as a transmission address of the terminal.