JP2010226569A - Meter-reading wireless repeater - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a meter-reading wireless repeater which is available even without performing an initial registration operation, regardless of the number of relay stages, between a meter-reading wireless master unit and the meter-reading wireless repeater, and between the meter-reading wireless repeater and a meter-reading wireless slave unit. <P>SOLUTION: Such a telegram constitution is provided to add a repeater ID in the order of a wireless meter-reading repeater 1-1 positioned next to the meter-reading wireless master unit 11, a wireless meter-reading repeater 1-2 positioned next, and a wireless meter-reading repeater 1-3 on a final stage, and each meter-reading wireless repeater performs relay by confirming relay route designation information. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a wireless repeater for meter reading which is used to remotely measure a meter such as a gas meter, a water meter, a hot water meter, and an integrating calorimeter.

Conventionally, in a relay radio system in which this meter-reading radio device is used, a radio master unit, a radio slave unit, and a relay unit can communicate with each other by performing a margin operation on each radio unit as an initial registration operation at the time of installation. Radio information is registered and communication is performed based on the information (see, for example, Patent Document 1).
JP 2008-288967 A

  By the way, the matching performed with the above-described conventional technique for the meter-reading radio requires the special operation for each radio when the radio is installed as the initial registration operation, and the transfer of radio information is required. was there.

  Therefore, in a wireless system having a relay function, it is necessary to perform an initial registration operation between the meter-reading radio master unit and the meter-reading radio repeater, and between the radio-metering repeater and the meter-reading radio slave unit, which increases the number of relay stages. As the number increases, the number of work steps increases and the installation time becomes longer.

  Therefore, the present invention solves the above-described problems, and provides a wireless metering repeater that can be used without performing an initial registration operation regardless of the number of relay stages.

  In order to solve the conventional problems, a wireless repeater for meter reading according to the present invention includes a measuring device for measuring the usage amount of electricity, gas, water, etc. or a wireless device for meter reading and a wireless device for meter reading that incorporates a usage amount measuring function. In a meter-reading system composed of a repeater and a meter-reading wireless master unit, a plurality of meter-reading relay IDs for specifying a relay route transmitted from the meter-reading wireless master device and a meter-reading wireless slave device ID serving as a communication partner are included. If the wireless receiver that receives the message and the ID of the meter reading repeater specified in the relay route match the ID of the self-confidence, the received message is relayed and transferred. And a polling relay unit that communicates with the meter-reading wireless slave device specified in (1).

  According to this, in this multi-stage relay wireless system, it is possible to acquire gas meter information by polling communication without performing an initial registration operation.

  The wireless repeater for meter reading according to the present invention includes a measuring device for measuring the usage amount of electricity, gas, water, etc., or a wireless device for meter reading, a wireless relay device for meter reading, and a wireless master device for meter reading. In the configured meter reading system, when a telegram including a plurality of meter reading repeater IDs for specifying a relay route transmitted from the meter reading wireless master device and a meter reading wireless slave device ID as a communication partner is received, When the designated meter-reading relay ID matches the confidence ID, the received telegram is relayed and forwarded, and if it is the last-stage repeater, it communicates with the meter-reading wireless slave device designated as the communication partner. A polling relay unit is provided.

  According to this, in this multi-stage relay wireless system, it is possible to acquire gas meter information by polling communication without performing an initial registration operation.

  The first invention is a meter reading device comprising a measuring device for measuring the amount of electricity, gas, water, etc. used or a meter reading wireless slave device, a meter reading wireless repeater, and a meter reading wireless master device. In the system, a wireless receiving unit that receives a message including a plurality of meter reading relay IDs that specify a relay route transmitted from the meter reading wireless master device and a meter reading wireless slave device ID that is a communication partner, and a relay route When the designated meter-reading relay ID matches the confidence ID, the received telegram is relayed and forwarded, and if it is the last-stage repeater, it communicates with the meter-reading wireless slave device designated as the communication partner. And a polling relay unit.

  According to this, in this multi-stage relay wireless system, it is possible to acquire gas meter information by polling communication without performing an initial registration operation.

  In the second invention, when the response message for the transmission relayed by the polling relay unit is successfully received, the relay ID storage unit for storing the relay ID specified for the relay route and the measuring device or the wireless slave unit notify When the received electronic message is received, a terminal transmission relay unit that relays and transfers the relay ID to the base unit through a route opposite to the relay ID stored in the relay ID storage unit is provided.

  According to this, in the multistage relay wireless system, it is possible to transmit a report from the gas meter or the meter-reading wireless slave unit to the central monitoring device without initial registration operation with the master unit.

  A third invention is a polling relay unit that, when succeeding in receiving a response message for transmission relayed and transferred to a meter-reading wireless slave unit, a slave unit ID storage unit that stores an ID of the meter-reading wireless slave unit; A terminal transmission relay unit that relays and forwards only a message sent from the meter-reading wireless slave unit stored in the machine ID storage unit.

  According to this, in the multistage relay wireless system, it is possible to transmit a report from the gas meter or the meter-reading wireless slave unit to the central monitoring device without initial registration operation with the slave unit.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a block diagram of a wireless repeater for meter reading which is an embodiment of the present invention. The meter-reading wireless repeater 1 includes a polling relay unit 2, the relay ID storage unit 3 includes a terminal transmission relay unit 4, a power source 5, an antenna 6, a wireless transmission / reception unit 7, a handset ID storage unit 8, and an ID determination unit 9. It is configured.

  The wireless transmission / reception unit 7 receives a message including one or a plurality of relay IDs specifying a relay route transmitted from the wireless master device and a wireless slave device ID as a communication partner.

  The ID determination unit 9 determines whether or not the relay ID specified in the relay route in the message received by the wireless transmission / reception unit 7 matches the self ID.

  When the ID determination unit 9 determines that the IDs match, the polling relay unit 2 performs relay transfer of the received message. Further, when the relay ID coincides with the relay ID at the final stage, the polling relay unit 2 transfers a telegram to communicate with the meter-reading wireless slave device designated as the communication partner.

  The relay ID storage unit 3 stores the repeater ID designated as the relay route when the response message for returning the transmission relayed by the polling relay unit 2 is successfully received.

  When the terminal transmission relay unit 4 receives a message sent from the measuring device or the wireless slave unit, the terminal transmission relay unit 4 relays and transfers the message to the meter-reading wireless master unit through a route opposite to the relay ID stored in the relay ID storage unit 3.

  The power source 5 can operate even during a power failure, can be installed in any place, and uses a battery such as a lithium battery with high long-term reliability.

  The wireless transmission / reception unit 7 demodulates the radio wave received by the antenna 6 and converts it into a telegram and sends it to the polling relay unit 2 or the terminal transmission relay unit 4 or sent from the polling relay unit 2 or the terminal transmission relay unit 4. The received message is converted, modulated into radio waves, and transmitted from the antenna 6.

  Next, the meter reading system diagram of FIG. 2 will be described. Here, the wireless section of the meter-reading system includes a meter-reading wireless master unit 11, a meter-reading wireless repeater 1-1, a meter-reading wireless repeater 1-2, a meter-reading wireless repeater 1-3, and a gas meter. The meter-reading wireless slave unit 12 is connected to a certain gas meter 14, and can communicate with the central monitoring device 15 from the meter-reading wireless master unit 11 via the public line 14.

  Then, information such as meter reading data of the gas meter 13 via wireless communication and a public line by polling communication by a command from the central monitoring device 15 or terminal call communication by a report from the gas meter 13 or the meter reading wireless slave unit 12 To get to.

  Moreover, the structure of the message | telegram transmitted from the wireless master device 11 for meter-reading to the wireless repeater 1-1 for meter-reading is shown in FIG. The telegram in FIG. 3 is a meter-reading request telegram, and the preamble located at the head is a signal that must be transmitted by a specific low-power radio station, and includes a 100-bit bit synchronization signal, a 31-bit frame synchronization signal, , A 63-bit call signal including a 48-bit call name.

  The repeater selection shortening code located next to the preamble is a system activation signal consisting of a shortening code for selecting the meter-reading wireless repeater 1, and identifies whether or not the radio wave of the communication counterpart side radio unit at the time of wireless signal carrier sensing. For this reason, it is continuously transmitted for a time longer than the radio signal carrier sense interval of the receiving device.

  The configuration includes a bit synchronization signal, a system identification code (for example, a PN three-stage code), and a shortened call signal (for example, a shortened call name of 16 bits + correction code of 16 bits) obtained by shortening the 48-bit call name and adding an error correction code. Bit = 32 bits), and is composed of a plurality of consecutive buckets.

  In the meter reading request command located next to the repeater selection shortening code, the full ID information of the repeater that specifies the relay route and the ID information of the meter reading wireless slave unit 12 are set, or a request to the gas meter 13 is instructed. There is data to send. Here, a meter reading request command for acquiring the meter reading value of the gas meter 13 is set as the transmission data.

  Thus, in the first half of the meter-reading request message transmitted from the meter-reading wireless master unit 11, a relay selection shortening code for selecting the meter-reading wireless repeater 1 is set as a system activation signal. The device 1-1 turns on the wireless reception power source for a certain period of time every intermittent period, first receives a system activation signal, and if it determines that it is destined for its own device, it continues to receive subsequent data. It has become.

  For the subsequent data, that is, the meter reading request command, the STX indicating the start of the message, the ETX indicating the end of the message, and the exclusive OR from the next data of the STX to the ETX for the purpose of detecting the error of the message The relay route designation, handset ID, and transmission data are set during the BCC.

  Then, in order to designate a relay route, the wireless meter reading relay 1-1 located next to the meter-reading wireless master unit 11, the wireless metering repeater 1-2 located next, the wireless meter reading repeater at the final stage The message structure is such that repeater IDs are assigned in the order of 1-3, and the polling relay unit 2 confirms this relay route designation information and relays.

  In order to make the number of relay stages and the number of slave units variable, the relay route designation and the slave unit ID delimiter and the slave unit ID and transmission data delimiter are unclear only by the data length. Or the number of slave units may be set before the slave unit ID.

  Next, a method for relaying a message having such a configuration will be described. First, when the central monitoring device 15 starts up and the meter-reading wireless master unit 11 transmits this message via the public network 14, the meter-reading wireless repeater 1-1 receives this message and designates a relay route. When the ID of the self-measuring wireless repeater 1-1 is found, the received message is relayed and transferred to the designated wireless measuring repeater 1-2.

  Next, the meter-reading radio repeater 1-2 receives this message, and if the ID of the meter-reading radio repeater 1-2 is found in the relay route designation, the meter-reading radio repeater 1 designated next time. -3 relays the received message.

  Next, the meter-reading wireless repeater 1-3 receives this message, and when the ID of the meter-reading wireless repeater 1-3 is found in the relay route designation, the next designated meter-reading wireless repeater is Therefore, as a final-stage repeater, the transmission data without the relay route designation is relayed and transferred to the meter-reading wireless slave unit as shown in FIG.

  Thus, in this multi-stage relay wireless system, the repeater can acquire the information of the gas meter 13 by polling communication without performing an initial registration operation with the parent device or the child device.

  Then, the transmission data transferred from the meter-reading wireless repeater 1-3 is transferred to the meter-reading wireless slave unit 12, and the response data is transmitted from the meter-reading wireless slave unit 12 by return. Then, when the polling relay unit 2 of the meter reading wireless repeater 1-3 receives a response message for relay transfer to the meter reading wireless slave unit 12, the slave unit ID storage unit 8 stores the ID of the meter reading wireless slave unit 12 Keep it.

  When the response data is received by the meter-reading wireless repeater 1-3, the response data is transferred to the meter-reading wireless repeater 1-2, and further the response data is transferred to the meter-reading wireless repeater 1-1.

  Here, the polling relay unit 2 of the meter-reading relay radio devices 1-1, 1-2, and 1-3 determines that it has successfully received the return response message for the relayed transmission, and relays it to the relay ID storage unit 3. The repeater ID specified for the route, that is, the IDs of the meter reading relay radio devices 1-1, 1-2, and 1-3 are stored.

Thereafter, when the gas meter 13 or the meter-reading wireless slave unit 12 reports, the terminal transmission relay unit 4 of the meter-reading wireless repeater 1-3 matches the ID of the meter-reading wireless slave unit 12 in the slave unit ID storage unit 8. After confirming that the response message is relayed, the response message is relayed to the route opposite to the repeater ID stored in the relay ID storage unit 3, that is, the meter-reading wireless repeater 1-2.

  The meter-reading wireless repeater 1-2 also relays and transfers the route opposite to the repeater ID stored in the relay ID storage unit 3, that is, the meter-reading wireless repeater 1-1, by the terminal transmission relay unit 4.

  The meter-reading wireless repeater 1-1 transfers the report to the meter-reading wireless master unit 11, and the meter-reading wireless master unit 11 can transmit the report to the central monitoring device 15 via the public line network 14.

  Next, processing performed by the meter-reading wireless repeater will be described with reference to the processing flowchart of FIG. First, when the wireless transmission / reception unit 7 of the meter-reading wireless repeater receives a message, it is first determined whether or not polling is received (STEP 1). In the case of polling reception, the polling relay unit 2 determines whether the relay route specified in the message by the ID determination unit 9 matches the self ID (STEP 2).

  If it is determined in STEP 2 that they match, the polling relay unit 2 further determines whether the ID of the last-stage relay route and the self ID match (STEP 3). In STEP 3, when it coincides with the final stage, the polling relay unit 2 transfers a message to the meter-reading wireless slave device via the wireless transmission / reception unit 7 (STEP 4). If it is determined in STEP 3 that they do not match, the polling relay unit 2 relays and forwards the message according to the relay route via the wireless transmission / reception unit 7 (STEP 5).

  Next, in STEP 1, when the wireless transmission / reception unit 7 of the meter-reading wireless relay unit receives a message, but not polling reception, the polling relay unit 2 determines whether a response message of polling return is received (STEP 6).

  If it is determined in STEP 6 that the call is returned, the ID specified by the relay route is stored in the relay ID storage unit 3 (STEP 7). If it is not determined in STEP 6 that the call is returned, it is determined whether the terminal transmission relay unit 4 receives a message from the slave (STEP 8).

  In STEP 8, when the terminal transmission relay unit 4 determines to receive a return response message from the slave unit, the slave unit ID storage unit 8 stores the slave unit ID. In STEP 8, if the terminal transmission relay unit 4 does not determine that the return response message has been received from the slave unit, the terminal transmission relay unit 4 determines whether or not the notification has been received from the slave unit (STEP 10).

  In STEP 10, when the terminal transmission relay unit 4 determines that the notification has been received from the slave unit, the received message is relayed and transferred in the reverse direction to the order specified by the relay route in the relay ID storage unit 3 (STEP 11). .

  As described above, in this multistage relay wireless system, the repeater can transmit a report from the gas meter 13 or the meter-reading wireless slave unit 12 to the central monitoring device 15 without initial registration operation with the master unit or the slave unit.

  In this way, there is no need to perform initial registration operations on the meter-reading radio master unit, meter-reading radio repeater, or meter-reading radio slave unit, and multiple stages of polling communication and terminal call communication can be performed simply by installing each radio device. Relaying is possible.

  Here, the description has been made assuming that the meter-reading wireless slave unit is one, but the same effect can be obtained by using a plurality of meter-reading wireless slave units.

In addition, the present invention is applied to the present invention in which meter reading is performed via the public line network 14 by activation from the central monitoring device 15, but in the case of polling communication, the meter reader directly goes to the installation site, and the meter reading wireless master unit 11 is handy. It can also be applied to systems that connect terminals.

  The handy terminal operated by the meter reader may be a PDA or a personal computer as long as it can be used by being connected to the meter-reading wireless master unit 11.

  As described above, the meter-reading wireless device according to the present invention can be applied not only to a gas meter but also to a measurement meter device that measures the flow rate of electricity, water, and the like.

Block diagram of a wireless repeater for meter reading which is an embodiment of the present invention System diagram including a wireless repeater for meter reading according to an embodiment of the present invention as a component The figure which shows the message format for the meter reading request addressed to the wireless repeater for meter reading The figure which shows the message format for the meter reading request addressed to the wireless slave unit for meter reading Flow chart of processing performed by the wireless repeater for meter reading

DESCRIPTION OF SYMBOLS 1 Wireless repeater for meter-reading 2 Polling relay part 3 Relay ID memory | storage part 4 Terminal transmission relay part 5 Power supply 6 Antenna 7 Wireless transmission / reception part 8 Child machine ID memory | storage part 9 ID determination part

Claims (3)

In the meter reading system that consists of a measuring device that measures the usage of electricity, gas, water, etc. or a wireless slave for meter reading, a wireless repeater for meter reading, and a wireless master for meter reading,
A wireless receiver that receives a message including a plurality of meter-reading relay IDs that specify relay routes transmitted from the meter-reading wireless master device and a meter-reading wireless slave device ID that is a communication partner, and a relay route designated A polling relay unit that relays the received message if the ID of the meter-reading relay matches the ID of the self-confidence, and communicates with the wireless slave for meter-reading designated as the communication partner if it is the last-stage relay A wireless repeater for meter reading, comprising: When the response message for the transmission relayed by the polling relay unit is successfully received, the relay ID storage unit for storing the relay ID specified in the relay route and the message reported by the measuring device or the wireless slave unit are received. The metering wireless repeater according to claim 1, further comprising: a terminal transmission relay unit that relays and forwards the relay ID stored in the relay ID storage unit to the base unit through a route opposite to the relay ID. When the polling relay unit succeeds in receiving a response message for the transmission relayed to the meter reading wireless slave unit, the slave unit ID storing unit for storing the ID of the meter reading wireless slave unit, and the slave unit ID storing unit The meter-reading wireless repeater according to claim 1, further comprising: a terminal transmission relay unit that relays and forwards only a message transmitted from the meter-reading wireless slave device.

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