JP2940275B2 - Line terminal system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a line terminal system in which a first terminal such as a gas meter communicates with a third terminal such as a center via a second terminal for connecting to a public communication line. More particularly, the present invention relates to data communication means when the first terminal and the second terminal are wirelessly connected.

[0002]

2. Description of the Related Art Cordless (wireless) telephones using relatively small antenna power have become widespread in homes. Also,
A specific low-power radio station system for telemetering and telecontrol using radio within a relatively narrow range was established in 1989.
It has been decided on a month. Therefore, in the future, it is expected to be widely used not only for telephones but also for telemeters / telecontrols of household appliances such as gas meters.

A line terminal system of this kind for a telemeter using such a radio is described below. The first example is an example disclosed in Japanese Patent Publication No. 63-20071 in which a second terminal is connected to a center which is a third terminal by a no-ringing communication method using a telephone line, and a second terminal is connected. And the first terminal are wirelessly connected to perform communication between the first terminal and the third terminal. As a form of communication between the first terminal and the second terminal, the second terminal wirelessly calls the first terminal and receives a meter reading transmitted from the terminal in response to the call.

A second example is disclosed in Japanese Patent Publication No. 60-160498. When a manual switch of the first terminal is pressed, the meter is read from the first terminal to the second terminal by radio. The value is transmitted.

A third example is disclosed in Japanese Patent Publication No. Sho 62-179096, in which a mobile terminal, which is a second terminal, calls the first terminal by radio and responds by calling the first terminal. This is to transmit the meter reading value sent from.

Thus, the communication means for transmitting the meter reading value from the first terminal in response to the call of the first terminal from the second terminal and the communication means for transmitting the meter reading value from the first terminal are provided. Have been.

Although a line terminal system using wireless communication has been described as a conventional example, at present, a first terminal such as a gas meter or a water meter installed in each home is connected to a second terminal by wire. Are designed to operate continuously for 10 years using a lithium battery as a power source.

[0008]

However, such a conventional technique has the following problems.

A first terminal waiting for a call from a second terminal;
Device must always be waiting to receive,
The power of the receiving circuit must always be turned on.
There is a problem that the power consumption of the terminal increases compared with the current terminal. For example, in the case of a specific low power radio, the current of the radio transmission circuit unit and the reception circuit unit consumes current 40 mA to 60 mA just by waiting for reception. The current gas meter uses a lithium battery of 1200 mAh to 2400 m.
Ah is used, and in order to guarantee it for 10 years, it is necessary to take measures such as supplying power from the outside.

[0010] The means for transmitting the meter reading value from the first terminal includes:
There is a problem that the meter reading value of the first terminal cannot be read at any time from the third terminal.

The present invention solves such a conventional problem, in which a first terminal and a second terminal such as a gas meter are wireless, and a second terminal and a third terminal are public communication lines. A line terminal system that is connected and communicates with a first terminal and a third terminal, and provides communication means for automatic notification and automatic meter reading capable of reducing power consumption for wireless communication of the first terminal. With the goal.

[0012]

In order to solve the above problems, a line terminal system according to the present invention comprises a first terminal and a first terminal.
A second terminal wirelessly connected to the first terminal, and a third terminal connected to the first terminal via a public communication line,
The first terminal includes: a measuring unit that analyzes and processes data detected by the sensor and the data and stores the data as state data; a wireless signal transmission unit; and a wireless unit that transmits wireless data when the state data indicates a predetermined change or at predetermined time intervals. State data transmitting means for supplying power to the signal transmission means to wirelessly transmit state data, and second data receiving state data transmitted by the first terminal wirelessly and storing the data as copy data Receiving means, notifying means for transmitting copy data to a third terminal via a public communication line when the copy data shows a predetermined change, and responding to a request from the third terminal via the public communication line And reading communication means for transmitting copy data.

[0013]

According to the present invention, by providing the above means,
The first terminal analyzes and processes the data detected by the sensor by the measuring means and the data and stores it as state data,
When the state data shows a predetermined change or every predetermined period, power is supplied to the wireless signal transmission means to transmit the state data wirelessly. Therefore, the wireless signal transmission means consumes power only during wireless transmission. Also, the second terminal always receives status data transmitted wirelessly by the first terminal and stores it as copy data, so that the second terminal always has substantially the same data as the status data of the terminal of the first terminal. .

Further, the notifying means of the second terminal transmits the copied data to the third terminal, and the reading communication means transmits the copied data in response to a request from the third terminal, whereby the third terminal is transmitted. The communication equivalent to the communication between the terminal and the first terminal is performed.

[0015]

FIG. 1 shows the configuration of a line terminal system according to an embodiment of the present invention.

The line terminal system of the present invention comprises a first terminal 1a which is a gas meter and a first terminal 1 which is a water meter.
b and the second terminal 5 are connected by a wireless line 21, and the second terminal 5 and a third terminal 8 serving as a center are connected to a public communication line 22.
Connected by

The first terminals 1a and 1b have the same configuration, and in this embodiment, the communication of the first terminal 1a will be mainly described.

The first terminal 1a transmits a radio signal to the radio line 21 to transmit data and transmits the radio signal.
, State data transmitting means 2, measuring means 3, and battery 14 serving as a power supply. Here, the measuring means 3 detects the state of the gas leaking information and the state data 13 including the integrated value of the gas flow rate, and detects the gas flow rate to detect whether or not the gas leak has occurred from the transition of the flow rate and time. The sensor 12 is configured to update the gas leak presence / absence information based on the detection result and also update the integrated value of the flow rate. The state data transmitting unit 2 includes a terminal control unit 11 for controlling the identification information 9 of the terminal and stopping the power supply of the battery 14 to the wireless signal transmitting unit.
And a data transmission unit 10 for driving the power supply control unit 11 to supply power to the wireless signal transmission unit 4 and transmit the data of the state data 13 together with the identification information 9. The data transmitting unit 10 operates when the information on the presence or absence of gas leakage in the state data 13 changes to “with gas leakage” or “without gas leakage”, and every time the integrated value of the flow rate increases by a certain amount. Shall be. After transmitting the identification information 9 and the state data 13, the data transmission unit 10 drives the power supply control unit 11 to stop the power supply to the wireless signal transmission unit 4.

The second terminal comprises a copy data communication means 6 for communicating with the third terminal 8 and a state data receiving means 7 for receiving state data from the first terminals 1a and 1b. The state data receiving means 7 includes: copy data 20a for receiving and storing the state data of the first terminal 1a; copy data 20b for receiving and storing the state data of the first terminal 1b; A terminal identification table 18 for registering possible first terminal identification information, a wireless signal receiving unit 17 for receiving a wireless signal via the wireless line 21, and a first signal for receiving the wireless signal via the wireless signal receiving unit 17. The data receiving means 19 fetches the identification information 9 and the status data 13 from the terminal 1a, compares the terminal identification table 18, and if the identification information 9 is registered in the terminal identification table 18, copies the status data 13 and stores it in the data 20a.
It consists of. Therefore, the copy data 20a stores the same information as that of the state data 13 such as the presence or absence of gas leakage and the integrated value of the gas flow rate. The copying data means 6 comprises a notifying means 15 and a reading communication means 16. The notifying means 15 refers to the copy data 20a and 20b, for example,
In the case of a, the third through the public communication line is performed only when the gas leak presence information changes from no gas leak to gas leak.
Is called and the data 20a is transmitted. The read communication unit 16 transmits the copy data 20a and 20b in response to a read request for the copy data 20a or 20b from the third terminal via a public communication line. When there is a request for the copy data 20a from the third terminal, the reading communication means 16 transmits gas leak presence / absence information and the integrated value of the gas flow rate.

Next, the operation of one embodiment of the present invention will be described. It is assumed that (1) is set as the identification information 9 in the first terminal 1a, and another value is set in the identification information of the first terminal 1b. It is also assumed that (1) is registered in the terminal identification table 18 of the second terminal 5.

Further, the data transmission unit 1 of the first terminal 1a
A value of 0 means that the operation is performed every time the integrated value of the flow rate is increased by 5 m ³ when the change is made without gas leak or when the change is made without gas leak.

The first terminal 1a operates as follows. The sensor 12 of the measuring means 3 detects the gas flow rate and constantly updates the integrated value of the gas flow rate in the state data 3.
Further, the sensor 12 detects whether or not a gas leak has occurred from the transition of the flow rate and the time, and updates the gas leak presence / absence information of the state data 13 based on the detection result. The state data transmission means 2 always refers to the state data 13 and when the integrated value increases by 5 m ³ or when there is a change in the gas leakage information, the data transmission section 10 drives the power supply control section 11 to transmit the radio signal. Power is supplied to the means 4. Subsequently, the data transmission unit 10 transmits the state data 1 together with the value (1) of the identification information 9.
3 is transmitted to the wireless line 21 via the wireless signal transmission means 4. When the transmission is completed, the power supply control unit 11 is driven to stop the power supply to the wireless signal transmission means 4.

The second terminal 5 monitors whether or not the wireless signal receiving unit 17 of the status data receiving unit 7 always receives data via the wireless line 21. When the wireless signal receiving unit 17 detects a wireless signal, the data receiving unit 19 detects the wireless signal and enters a receiving operation. The data receiving unit 19 copies the state data 13 to be received by referring to the terminal identification table 18 with reference to the identification information (1) to be received, and stores it in the data 20a. The copy data communication means 6 always monitors the gas leak presence / absence information of the copy data 20a, and notifies the notification means 1 only when it changes to gas leak.
5, the third terminal 8 is called and copied, and the data 20a is transmitted to the third terminal. The data receiver 19 updates the integrated value of the gas flow rate in the copy data 20a every time the first terminal 1a repeats the transmission operation.
Is not a driving factor. When the third terminal 8 performs the automatic meter reading of the first terminal 1a, the reading communication means 16 is driven when the second terminal is called, and when the third terminal 8 requests the copy data 20a by a communication message or the like, The reading communication means 16 transmits the copy data 20a.

In this manner, the line terminal system of the present invention transmits a gas leak report of the first terminal 1a to the third terminal, and the third terminal performs automatic meter reading of the first terminal 1a. . In addition, the following state data 13 and identification information 9
The total bit length exchanged with the second terminal for transmission of
Assuming that the transmission time for transmitting one state data is 2 seconds at 400 bits and a communication speed of 1200 bps, and the current flowing through the circuit by the wireless signal transmission means 4 in the specific low-power wireless communication is 50 mA on average, as follows: Operation.

For example, if the monthly gas consumption is 20 m ³ , and if there is no gas leakage, the first terminal 1 a of the line terminal system of the present invention
Activates the power control unit 11 to supply power to the wireless signal transmission means 4 and transmit the state data 13 four times. If it is 2 seconds in one transmission, it will be 8 seconds in 1 month,
Power is supplied to the wireless signal transmission means 4 only during these eight seconds. It will be 16 minutes in 10 years.

Therefore, 15 mAh equivalent of the 1200 mAh lithium battery in 10 years is consumed by the first terminal 1a for wireless communication. In the present embodiment, an example is shown in which the integrated value of the gas flow rate is communicated wirelessly every predetermined increment. However, if the first terminal is provided with a calendar and a clock and is transmitted at a predetermined date and time, further consumption is achieved. Power is reduced.

In the present embodiment, the data of the state data 13 has been described as being extremely limited. However, an actual gas meter has a lot of information and is not limited to this embodiment. Also, the case where the first terminal 1a is a gas meter has been described as an example. However, conditions for determining what kind of information is included in state data and what kind of wireless communication is performed when a change occurs in state data. Can be similarly applied to other meters. Even if the first terminal is a terminal that detects a make contact and a break contact, the present invention can be similarly applied as long as the first terminal has ON / OFF information as state data.

Further, in the present embodiment, an example is shown in which the entire state data is transmitted in one communication, but the communication time may be shortened by transmitting only the changed part. Further, power consumption for wireless communication can be reduced.

[0029]

As described above, according to the line terminal system of the present invention, the following effects can be obtained.

(1) The first terminal does not need to wait for reception, so that power consumption for wireless communication can be reduced. For example, when applied to a gas meter or the like, wireless communication can be supported with a slight increase in battery capacity. It is.

(2) Since the second terminal constantly stores data indicating the state of the first terminal while updating the data, the second terminal responds to the data request from the third terminal. What is necessary is just to transmit the data stored in the second terminal without requesting the data from the third terminal, and it is possible to provide a communication means for performing automatic meter reading of the first terminal from the third terminal. A report from the first terminal is also possible.

(3) A line terminal system is provided in which a first terminal such as a gas meter and a second terminal are connected by wire, and the second terminal is connected from the third terminal via a no-ringing communication line. However, it is possible to provide a line terminal system capable of making the first terminal and the second terminal wireless without affecting the communication protocol between the second terminal and the third terminal.

[Brief description of the drawings]

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

[Explanation of symbols]

 1a, 1b 1st terminal 2 status data transmitting means 3 measuring means 4 wireless signal transmitting means 5 2nd terminal 7 status data receiving means 8 3rd terminal 13 status data 15 reporting means 16 reading communication means 20a, 20b copy data

──────────────────────────────────────────────────の Continuing on the front page (72) Masaaki Sakata, 1006 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (72) Shunichi Nagamoto 1006 Kadoma Kadoma, Kadoma City, Osaka Matsushita Electric Industrial Co., Ltd. In-house (72) Inventor Takeshi Muramatsu 1006 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (72) Inventor Yasuo Yoshimura 1006 Odaka Kadoma, Kadoma City, Osaka Matsushita Electric Industrial Co., Ltd. (56) Reference Document JP-A-5-128387 (JP, A) JP-A-63-252058 (JP, A) JP-A-5-41887 (JP, A) JP-A-4-157300 (JP, A) JP-A-2- 257794 (JP, A) JP-A-2-51799 (JP, A) JP-A-62-164362 (JP, A) JP-A-62-24113 (JP, A) JP-A-56-80954 (JP, A) (58) Fields surveyed (Int. Cl. ⁶ , (DB name) H04M 11/00-10/10 H04Q 9/00 311

Claims (3)

(57) [Claims] A second terminal wirelessly communicating with the first terminal;
A third terminal connected to the second terminal via a public communication line, the first terminal analyzing data processed by a sensor and measuring means for storing the data as state data; A radio signal transmission means, and when the status data shows a predetermined change or at every predetermined time, comprises power data to the radio signal transmission means and status data transmission means for transmitting the status data, The second terminal receives the status data transmitted by the first terminal and stores the status data as copy data; and a state data receiving unit via a public communication line when the copy data indicates a predetermined change. A line terminal system comprising: a notifying unit for transmitting the copy data to the third terminal; and a reading communication unit for transmitting the copy data in response to a request from the third terminal. Beam. 2. The apparatus according to claim 1, wherein the measuring means stores the accumulated value of the flow rate as state data, and the state data transmitting means transmits the state data to the second terminal at predetermined intervals or at predetermined integration increments. 2. The line terminal system according to 1. 3. The status data transmitting means transmits status data together with identification information for identifying the first terminal, and the status data receiving means receives status data received from the first terminal based on the identification information. 2. The line terminal system according to claim 1, wherein the line terminal system receives and stores as copy data for each terminal.