JP2008293529A - Meter inspection system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a simple data transmitter-receiver for automatically reading its integral value data and proper data in a noncontact state by using a handy terminal, without changing a meter with the communication function. <P>SOLUTION: The data transmitter-receiver 20 attached to a microcomputer meter 10 with the communication function and relaying between the meter and the handy terminal 30, is provided with a serial interface part 25 connectable to a communication interface 14 of the microcomputer meter 10, a storage part 23 storing data such as an integral value read out of the meter via this serial interface part, and a transmitting-receiving part 22 capable of transmitting the data stored in the storage part 23 to the handy terminal in a noncontact state by starting by its electric power, by generating induced electromotive force in an antenna coil 21 by a radio wave emitted from the handy terminal 30. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a data transmission / reception apparatus for a meter with a communication function that can read integrated value data, unique data, and the like in a meter with a communication function such as a gas meter, a power meter, and a water meter having a communication function without contact.

  Conventionally, gas meters (hereinafter referred to as “microcomputer meters”) that have built-in microcomputers in the meter and monitor the accumulated value of gas usage and abnormalities during gas usage have become widespread. Automatic meter reading of meter integrated values and transmission of abnormal information during gas use are being carried out.

  When meter reading without using a telephone line, for example, a meter reader takes the handy terminal to the installation location of the microcomputer meter, visually checks the integrated value of the microcomputer meter, and manually inputs the meter to the handy terminal. The method is also widespread.

  Furthermore, as described in Patent Document 1, using a handy terminal including an electromagnetic induction type transmission / reception unit, a display unit, and a microcomputer unit, there is also a meter reading method for directly reading the integrated value of the microcomputer meter in a non-contact manner. Already provided.

JP-A-5-101293

  However, in a system that communicates by connecting a telephone line to a microcomputer meter, the equipment investment for communication is high, so even if a microcomputer meter with a communication function is used, in reality the communication function has only a small overall installation rate. The fact is that, even in a gas company, automatic meter reading using a telephone line and manual input meter reading using a handy terminal are used in combination. In the case of this manual input meter reading, there is a problem that a data input error occurs.

  In addition, when using a handy terminal that can directly read the integrated value of the microcomputer meter without contact, it is necessary to provide a corresponding electromagnetic induction type transmitter / receiver on the microcomputer meter side as well. There were difficulties in applying to.

  Therefore, the object of the present invention is to change the meter with a communication function in view of the current situation that a meter with a communication function is widely used, but a handy terminal is also used and a handy terminal that can be read in a non-contact manner is also provided. It is an object of the present invention to provide a simple data transmission / reception apparatus that can automatically read the integrated value data, unique data, and the like using a handy terminal without contact.

  A data transmission / reception device for a meter with a communication function according to the present invention is attached to a meter with a communication function and relays between the meter with a communication function and a handy terminal, and is connected to a communication interface of the meter with a communication function. A serial interface unit that can be used, a storage unit that stores data such as integrated values read from the meter through the serial interface unit, and an induced electromotive force generated in the antenna by radio waves emitted from the handy terminal. And a transmission / reception unit capable of transmitting the data stored in the storage unit to the handy terminal in a non-contact manner.

  This data transmitter / receiver may be incorporated in a resin case attached to the meter body so that it can be easily attached to an existing meter with a communication function.

  If unique data such as a meter management number and replacement date is also stored in the storage unit of this data transmitting / receiving device, the unique data can be transmitted to the handy terminal by a request signal by radio waves from the handy terminal.

  In addition, when the previous meter reading data stored in the storage unit of this data transmitting / receiving device and the current meter reading data newly read from the meter are transmitted to the handy terminal by a request signal by radio waves from the handy terminal, The integrated value and the previous integrated value are calculated at the handy terminal, and for example, the monthly usage can be known.

  According to the first aspect of the present invention, since it is provided by connecting to the communication terminal of the existing or newly installed microcomputer meter with communication function, its integrated value data, unique data, etc. without changing the microcomputer meter with communication function Can be automatically read in a non-contact manner using a handy terminal, so that the accumulated value of a microcomputer meter that is not connected to a telephone line can be accurately measured without entry errors or input errors.

  According to the invention of claim 2, since it is incorporated in the case attached to the meter main body, in addition to the above effects, it can be easily attached to an existing microcomputer meter.

  According to the invention of claim 3, since the unique data such as the management number and replacement date of the microcomputer meter can be read out, the addition or change of the unique data of the meter can be performed by attaching to the existing microcomputer meter. Is possible.

  According to the invention of claim 4, the previous meter reading data stored in the storage unit of the data transmission / reception device and the current meter reading data newly read from the meter are read by a request signal by radio waves from the handy terminal. Therefore, for example, the monthly usage can be calculated and displayed at the handy terminal.

Next, embodiments of the present invention will be described in detail with reference to the drawings.
In FIG. 1, a data transmission / reception device 20 according to the present invention is attached to a microcomputer meter (gas meter) 10 with a communication function, and integrated value data and the like of the microcomputer meter 10 is contactlessly communicated with the handy terminal 30 via the data transmission / reception device 20. 1 is a block diagram of a reading system.

  The microcomputer meter 10 includes a microcomputer 11, a battery 12, a liquid crystal display unit 13, a communication interface 14 having two communication terminals DT / SG connectable to a transmission device that performs transmission via a telephone line, an external device interface 15, and a gas shutoff valve 16. The flow sensor 17 and the integration counter 18 are configured. The integrated value of the integrating counter 18 is stored in the internal memory of the microcomputer 11 and the integrated value data can be transmitted to the outside via the terminal DT / SG by the communication interface 14.

  The data transmission / reception device 20 includes an antenna coil 21, a transmission / reception unit 22, a readable / writable storage unit 23, a serial communication conversion unit 24 for communicating with the microcomputer meter 10, and communication serially connected to the communication terminals DT / SG of the microcomputer meter 10. The interface unit 25 and the sequence unit 26 are included in the microcomputer meter 10.

  The handy terminal 30 includes an antenna coil 31, a transmission / reception unit 32, a power supply unit 33, a microcomputer unit 34, a display unit 35, a buzzer 36, and a switch 37, and is separated from the microcomputer meter 10.

  When measuring data such as the integrated value of the microcomputer meter 10, the antenna coil 31 of the handy terminal 30 is brought close to the antenna coil 21 of the data transmitting / receiving device 20, the switch 37 is turned on, and a radio wave is emitted from the handy terminal 30. Thus, an induced electromotive force is generated in the antenna coil 31, and the request is transmitted to the microcomputer meter 10 via the data transmitting / receiving device 20 by starting with the power, and measurement is started.

  In the data transmitter / receiver 20, when the antenna coil 21 receives a signal from the handy terminal 30, the transmitter / receiver 22, the serial communication converter 24, the storage unit 23, and the sequence unit 26 are driven by the induced power. Then, the unique data such as the management number and replacement date of the microcomputer meter 10 stored in the storage unit 23 and the previous integrated value data stored in the storage unit 23 are read out, and the sequence unit 26 is read out. Then, the data is transmitted from the transmission / reception unit 22 to the handy terminal 30.

  Further, when the data transmission / reception device 20 receives a request signal from the handy terminal 30, the signal is converted into a communication protocol with the microcomputer meter 10 by the serial communication conversion unit 24, and the microcomputer meter passes through the communication interface unit 25. 10 is transmitted.

  When the microcomputer 11 of the microcomputer meter 10 receives the request signal, the integrated value data stored in the internal memory is transmitted to the data transmitter / receiver 20 via the communication interface 14. The data transmission / reception device 20 that has input this through the communication interface unit 25 sends it to the storage unit 23 via the serial communication conversion unit 24, stores it as a previous integrated value in this storage unit 23, and sends it to the handy terminal 30. Is transmitted by the transmission / reception unit 22 as current integrated value data.

  As described above, the previous integrated value data and the current integrated value data transmitted from the data transmitting / receiving device 20 to the handy terminal 30 are calculated by the microcomputer unit 34 of the handy terminal 30 and, for example, a display unit is used as a monthly usage amount. 35. In addition, unique data such as the management number and replacement date of the microcomputer meter 10 transmitted from the data transmitter / receiver 20 as described above is also displayed.

  FIG. 2 is an external view of the microcomputer meter 10, and the data transmitting / receiving device 20 according to the present invention is integrated in a plastic terminal lid (case) 41 of the terminal box 40 a of the meter body 40. In this example, the data transmission / reception device 20 is attached to the meter body 40 by closing the terminal box 40a. In this case, the data transmitter / receiver 20 is roughly divided into an antenna unit and other electric circuit units, and two signal lines 25a from the communication interface unit 25 included in the electric circuit unit are connected to a terminal box of the meter main body 40. The terminal is connected to a communication terminal DT / SG provided in 40a.

  Therefore, the data transmitter / receiver 20 can be easily attached to the existing microcomputer meter 10 only by replacing the terminal lid 41.

  FIG. 3 shows that the data transmitting / receiving device 20 is incorporated in a resin transmission box (case) 50 instead of the terminal lid 41, and the transmission box 50 is directly or indirectly attached to the meter body 40 or is installed nearby. The two signal lines 25a from the communication interface unit 25 of the data transmitting / receiving device 20 are connected to the communication terminals DT / SG on the meter body 40 side.

It is a block diagram which shows the internal structure of the data transmitter / receiver by this invention, and the structure of the system which reads the integrated value data of a microcomputer meter, etc. by a non-contact by a handy terminal using this. It is an external appearance perspective view of an example which attaches the data transmission / reception apparatus by this invention to the meter main body of a microcomputer meter. It is a perspective view which shows another example of attachment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Micrometer 14 Communication interface 20 of microcomputer meter Data transmission / reception apparatus 21 Antenna coil (antenna)
22 Transmission / Reception Unit 23 Storage Unit 24 Serial Communication Conversion Unit 25 Communication Interface Unit 26 Sequence Unit 30 Handy Terminal 32 Handy Terminal Transmission / Reception Unit 34 Handy Terminal Microcomputer Unit 41 Terminal Cover (Case)
50 Transmission box (case)

Claims (4)

  A serial interface unit that can be connected to the communication interface of a meter with a communication function, a storage unit that stores data such as integrated values read from the meter through this serial interface unit, and an induced electromotive force generated in the antenna by radio waves emitted from the handy terminal And a transmission / reception unit that can be activated with the power and stored in the storage unit without contact, and can be attached to the meter with the communication function. A data transmission / reception device for a meter with a communication function.   The meter data transmitter / receiver with a communication function according to claim 1, wherein the meter data transmitter / receiver is incorporated in a resin case attached to the meter body.   The storage unit can store unique data such as a management number and exchange date of the meter, and the unique data can be transmitted to the handy terminal by a request signal by radio waves from the handy terminal. Item 3. A data transmission / reception device for a meter with a communication function according to Item 1 or 2.   The previous data stored in the storage unit and the current data read from the meter can be transmitted to the handy terminal by a request signal by radio waves from the handy terminal. Or a data transmission / reception device for a meter with a communication function according to 3,

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