JP2005352532A - Automatic meter reading system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an automatic meter reading system which is easy and sure to operate and has excellent transmission efficiency between a meter-reading terminal and data-collecting device. <P>SOLUTION: The automatic meter reading system comprises meter-reading terminals 4a<SB>1</SB>to 4a<SB>n</SB>, 4b<SB>1</SB>to, data-collecting devices 3a and 3b, and a center device 1. In this case, the meter-reading terminals call the data-collecting devices so as to request the registration of their own terminal individual identification numbers and meter individual identification numbers obtained from connected meters. The data-collecting devices register the meter individual identification numbers by adding, to the meter-reading terminals, calling-shortening individual identification numbers comprising group numbers and registration numbers peculiar to the data-collecting devices. Then, the identification of individuals are made in communication between the data-collecting devices and the meter-reading terminals. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an automatic meter-reading system that collects meter-reading values such as electric energy, gas usage, and water usage from a terminal device to a data collection device using power line transportation, radio, or the like.

  In the operation of the automatic meter reading system, the most labor intensive is the installation work of meter reading terminals and instruments and their registration work until the actual operation state is shifted. A general automatic meter reading system includes “center device (host computer) —relay station—meter reading terminal—instrument”. In the communication between the relay station and the meter-reading terminal, when using a method that is easily affected by noise, such as the power line carrier method, and the communication speed cannot be increased, the relay station also serves as a data collection device in operation. (For example, refer to Patent Documents 1 and 2). In such a case, it is necessary to register the meter reading terminal not only in the host computer (hereinafter referred to as the host) but also in the data collection device. A conventional meter reading terminal and instrument registration method will be described below (assuming that the installation of the host and relay station has been completed).

(Conventional registration method)
(1) The person in charge of construction will install and wire the meter reading terminal and meter.
(2) The person in charge of construction notifies the host administrator of each individual identification number (hereinafter referred to as ID) of the data collection device to which the meter reading terminal, the meter, and the meter reading terminal belong.
(3) The host administrator inputs each ID into the host computer.
(4) Command the host to register the meter reading terminal from the host.
(5) Confirm the connection between the meter reading terminal and the meter from the data collection device.
(6) The data collection device registers the meter-reading terminal if the connection confirmation is normal.
(7) The data collection device returns a connection confirmation result (registration availability) to the host.
(8) If the meter reading terminal is already registered in the data collection device, the host shifts the meter reading of the target meter to the actual operation state.
JP-A-10-188187 JP 2000-286757 A

  This registration method has a problem that it is not detected until the stage (5) when a wiring error occurs at the stage (1) or when the communication between the relay station and the meter-reading terminal is poor. It was. Furthermore, there is a problem that an ID recording error may occur in the stage (2). Further, in the case of power line conveyance, there is a problem that it is difficult to grasp the power line feeder, so that the relay station to which the meter-reading terminal belongs is mistaken. Further, in the stage (3), there is a problem that an input error may occur and a burden due to manual input is large.

  Here, paying attention to the characteristics of the power line carrier, since the signal attenuation of the power line carrier signal at the transformer is significant, its transmission area is generally a high-voltage distribution line and a low-voltage distribution line feeder separated by the transformer. You can think about it. However, normally, the power line carrier signal does not wrap around the high-voltage distribution line from the transformer and invade other low-voltage distribution line feeders, but there are multiple transformers adjacent to each other like an apartment house, and If the load on the terminal high-voltage distribution line is lighter than that point, the power line carrier signal of another low-voltage distribution line feeder may be received. This is because it is difficult to grasp the situation of the power line feeder, so if the relay station to which it belongs is mistaken, the mistake is not detected and the unstable state may continue. was there. In addition, the power line carrier is susceptible to noise, and the transmission speed cannot be increased for reliable signal transmission. Therefore, various measures such as compressing the data part to increase the transmission efficiency are implemented. However, if the relay station transmits the terminal ID compressed by giving a registration number or the like to the meter-reading terminal, there is a problem that the meter-reading terminal of another power line feeder may respond. It was.

(Object of the present invention)
An object of the present invention is to provide an automatic meter reading system that can facilitate and ensure operation and improve the transmission efficiency between a meter reading terminal and a data collection device.

  In order to achieve the above object, the present invention according to claim 1 is provided for each group of meter reading terminals connected to a meter for measuring a meter reading value, and for each group of the meter reading terminals, and belongs to the group In an automatic meter reading system comprising a data collection device that collects meter reading value information from a meter reading terminal by a predetermined communication medium, and a center device that records meter reading value information collected by the data collecting device, the meter reading terminal comprises: Call the data collection device for a registration request with its own terminal individual identification number and the instrument individual identification number obtained from the connected instrument, and the data collection device registers its own group number and the data collection device Registration is performed by assigning an individual identification number for a short call consisting of a number to the meter-reading terminal, and in the subsequent communication between the data collection device and the meter-reading terminal, the shortened call It is characterized in carrying out the identification in use individual identification number.

  According to a second aspect of the present invention, in the automatic meter-reading system according to the first aspect, the meter-reading terminal has a registration activation request accepting unit, a meter connection presence / absence setting unit, and a registration availability display unit. When the registration activation request is accepted by the registration activation request accepting unit, the instrument individual identification number is obtained from all the instruments set to be connected by the instrument connection presence / absence setting unit, and the instrument individual identification number and Calling the terminal individual identification number of the terminal itself to the data collection device, and receiving the shortened call individual identification number from the data collection device, the registration availability display means displays the end of registration. Is.

  According to a third aspect of the present invention, in the automatic meter-reading system according to the first or second aspect, the data collection device includes a communication unit with the center device, and the predetermined center device is provided. If the registration information of the meter-reading terminal changes during the call time, the changed registration information is transmitted to the center device.

  According to a fourth aspect of the present invention, in the automatic meter reading system according to any one of the first to third aspects, when the data collection device is exchanged, the data collection set to the same group number as before the exchange. A device restores registration information of the meter-reading terminal by sequentially calling the meter-reading terminal by the individual identification number for abbreviated calling and obtaining a terminal individual identification number and a meter individual identification number. It is.

  According to a fifth aspect of the present invention, in the automatic meter reading system according to any one of the first to fourth aspects, a power line carrier is used as a communication medium between the meter reading terminal and the data collection device, and the meter reading is performed. A terminal is classified as a group for each power line feeder, and the data collection device sets a power line feeder number as a group number, a communication means with another adjacent data collection device, and a power line carrier signal reception level. Measuring means, and when receiving a registration request call from the meter-reading terminal, the data collection device that communicates with another data collection device and measures the highest power line carrier signal reception level is configured to issue a registration request. It is characterized by registering the meter-reading terminal that made the call.

  According to the present invention, operation can be facilitated and ensured, and transmission efficiency between the meter-reading terminal and the data collection device can be improved.

  The best mode for carrying out the present invention is as described in Examples described later.

  An embodiment of the present invention in the case where power line conveyance is used as a communication medium between the meter reading terminal and the data collection device and the meter reading terminals are grouped for each power line feeder will be described below.

  FIG. 1 shows a configuration diagram of an automatic meter reading system according to an embodiment of the present invention. FIG. 2 shows a configuration example of a data collection device that is a component of the automatic meter reading system of FIG. 1, and FIG. 3 shows a configuration example of a power line carrier terminal that is a component of the automatic meter reading system of FIG. Show.

As shown in FIG. 1, the automatic meter reading system measures the meter reading value with the host computer 1 which is a center device, and the data collecting devices 3a, 3b... Installed for each of the low voltage distribution line feeders 2a, 2b. Power line carrier terminals 4a _{1 to} 4a _n and 4b ₁ to be connected to the measuring instrument. The host 1 is connected to the PHS public network 5 and the cell station (PHS base station) 6 via a communication line, and further connected to the PHS modem 7 wirelessly, and connected to the highest-level data collection device 3a via the communication line. The lower data collection device 3b is connected to the highest data collection device 3a by a communication line. Since the PHS modem 7 is installed in a place where the radio wave environment is good, the PHS modem 7 is separated from the data collection device 3a. In the case of FIG. 1, a plurality of transformers 8 are adjacent to each other as in an apartment house, and a power line carrier signal wraps around a high-voltage distribution line 9 (for example, AC6600V) from the transformer 8 and enters another low-voltage distribution line feeder. The uppermost data collecting device 3a and the lower data collecting device 3b are connected by a communication line, and only the uppermost data collecting device 3a is connected to the PHS modem 7, but the power line carrier signal If there is no possibility that the high voltage distribution line 9 will wrap around from the transformer 8 and enter the other low voltage distribution line feeder, the uppermost data collection device 3a and the lower level data collection device 3b are not connected by the communication line. In addition, each data collection device 3a, 3b may be provided with its own PHS modem.

Each power line terminal unit _{4a 1 ~4a} n, 4b 1 ~ is, lamp power meter 10 (single-phase three-wire), power for energy meter 11 (three-phase three-wire), the gas meter 12, water meters 13 Are connected so as to obtain the meter reading value and meter ID. Between the data collecting device 3a and the power line terminal unit 4a ₁ ~4a _n, in between _through data collecting device 3b and the power line carrier terminal device 4b 1, the signal exchange is performed by the power line carrier.

The maintenance terminal 14 is a combination of a notebook personal computer and a PHS modem, and the power line carrier terminal 4a via the cell station 6 and the PHS modem 7 via the data collection devices 3a and 3b or the data collection devices 3a and 3b. _{1 to} 4 a _n and 4 b ₁ to communicate with each other. It is used for the purpose of the system operator in charge of identifying a failure location when a communication failure occurs.

  A configuration example of the data collection device indicated by 3a and 3b in FIG. 1 is shown as 3 in FIG. The data collection device 3 is connected to a CPU 15 as a control circuit and a power line 16 (low voltage distribution line), performs communication by power line conveyance with a power line conveyance terminal, and also has a power line conveyance modem 17 having a reception level measurement function, Connected to the power line 16, obtains a DC power supply voltage from the AC 100 V of the power line 16, EEPROM 19 (nonvolatile memory) that stores the power supply circuit 18, device ID, registration information, host telephone number, etc., to be supplied to each part, Connected to a RAM 20 for storing meter reading values, a clock circuit 21 for generating a real-time clock, and a communication line 22, and connected to a first communication interface 23 and a communication line 24 for communicating with a host data collection device or PHS modem 7. A second communication interface 25 for communicating with the lower-level data collection device, Pushbutton switch 26 of the constant-operation start, the rotary switch 27 for feeder number setting, and a display circuit 28 for status display example in which a light emitting diode. In this embodiment, a feeder number is used as the group number.

_4a 1 _{to 4A} n 1, an example of a configuration of a power line carrier terminal device shown 4b ₁ with ~ indicated as 4 in Figure 3. The power line carrier terminal 4 is connected to the CPU 29 as a control circuit and the power line 16 (low voltage distribution line), and is connected to the power line carrier modem 30 and the power line 16 that perform communication by power line carrier with the data collection device. Power supply circuit 31 that obtains a DC power supply voltage from AC 100V and supplies it to each part, EEPROM 32 (non-volatile memory) that stores terminal ID, instrument ID, etc., RAM 33 that stores meter readings, etc., electric power for lamps wired or wireless The first communication interface 34 connected to the meter 10, the second communication interface 35 connected to the power meter 11, the third communication interface 36 connected to the gas meter 12, and the water meter 13. A fourth communication interface 37, a push button switch 38 for accepting a registration activation request, 1 to 4 communication interfaces 34 to 37 are connected to an instrument connection presence / absence setting switch 39 composed of four on / off switches corresponding to each instrument, and a status display display circuit 40 composed of, for example, a light emitting diode. Have.

  First, as a pre-stage of terminal registration work, the data collection device 3 is set. In the data collection device 3a, the rotary switch 27 for setting the feeder number is set to “1” by a construction worker. When the pushbutton switch 26 is pressed, the CPU 15 starts the feeder number setting operation, communicates with the PHS modem 7 via the first communication interface 23, and if the PHS modem 7 responds, the display circuit 28 displays a setting completion display. Let it be done and get into operation. If there is no response, display failure is displayed on the display circuit 28. The person in charge of the construction looks at this display and rechecks the wiring on the spot.

  In the data collection device 3b, the rotary switch 27 for setting the feeder number is set to “2” by the person in charge of construction. If the pushbutton switch 26 is pressed to communicate with the data collection device 3a, which is the host device, and the data collection device 3a responds, the display circuit 28 displays the completion of setting and enters the operating state. Hereinafter, the feeder number is set in the same procedure for the lower data collection apparatuses. As a result, each data collection device holds a different feeder number.

(Device registration method)
It will be described below with reference to the flow at the time of registration information in FIG. 4 the registration process as an example of power line carrier terminal device 4b _1.
(1) The person in charge of installation performs installation and wiring of the power line carrier terminal 4b ₁ and the instrument. Then, the setting switch 39 corresponding to the connected instrument is set to be connected (ON). For example, if the watt-hour meter 10, the gas meter 12, and the water meter 13 are connected, the three setting switches 39 corresponding to the watt-hour meter 10, the gas meter 12, and the water meter 13, respectively, are set to ON. .
(2) The power line carrier terminal 4b ₁ is activated by pressing the pushbutton switch 38 of the person in charge of the construction, and reads the instrument ID from the instrument set by the setting switch 39 to be connected (ON). If the instrument ID is acquired from all the instruments set to be connected, the registration request signal of the power line carrier terminal 4b ₁ is sent to the data collection devices 3a, 3b,. Make a call.
(3) Upon receiving the registration request signal, the data collection device 3b measures the reception level and transmits it together with the registration request information to the highest-level data collection device 3a.
(4) Here, it is assumed that the calling power line carrier terminal 4b ₁ is in the data collection area of the data collection device 3b and the registration request signal is received by the data collection device 3a and the data collection device 3b. Naturally, since the reception level of the registration request signal received by the data collection device 3a is greatly attenuated by the transformer 8, it is smaller than the reception level of the data collection device 3b. Since the highest-level data collection device 3a grants registration permission to the data collection device with the highest reception level, it transmits a registration permission signal to the data collection device 3b. The data collection device 3b assigns a short call ID including the feeder number “2” to the power line carrier terminal 4b ₁ that has issued the registration request, performs registration, and also includes a registration including the short call ID to be provided. transmitting a permission signal to the power line carrier terminal device 4b _1. Assuming that the maximum number of registered data collection devices is 100, the abbreviated call IDs are assigned numbers from 00 to 99 in the order of registration. If the feeder number is 2 and the registration order is fourth, a short call ID of 204 is assigned. If the terminal ID is 9 digits, the shortened call ID is 3 digits, so that the transmitted ID part can be compressed to 1/3.
(5) The power line carrier terminal 4b ₁ to which the short call ID is assigned displays the registration normal end on the display circuit 40. This later, communication between the transport terminal device 4b ₁ data collecting device 3b and the power line identification is performed by shortening call ID. Even if the power line carrier terminal 4b ₁ transmits a registration request signal, if the short call ID is not given, the power line carrier terminal 4b ₁ displays a registration failure by the display circuit 40, and the person in charge of construction works on the spot, Check the wiring again.
(6) When the data collection device 3 reaches the once-to-host call time (for example, 00:30) once a day, the change of the registration information transmitted by the call of the power line carrier terminal 4 is 24 hours before that. If there is a change, the host 1 is called and the changed registration information is transmitted. The host 1 accepts the changed registration information and returns an acceptance confirmation signal to the data collection device 3. Then, the host 1 shifts the meter reading of the meter connected to the registered power line carrier terminal 4 to the actual operation state.

When exchanging the instrument, the instrument is exchanged and the power line carrier terminal 4b ₁ is caused to call a registration request signal by the same method as the terminal registration method. Since the data collection device 3b that has received the registration request signal has already registered the terminal ID, the data collection device 3b notifies the data collection device 3a that it has already been registered in the highest-level data collection device 3a, and only the instrument ID is updated and registered. While updating the ID, the same short call ID as before is given to the power line carrier terminal 4b _{1 that} has called the registration request signal.

For example, when replacing a power line carrier terminal device 4b _1, first, to remove the terminal registration in the data collector 3b of the power line carrier terminal device 4b ₁ belonging to exchange via the maintenance terminal 14. Thereafter, the replaced power line carrier terminal 4b ₁ is registered in the same manner as when newly installed.

For example, the flow of information when the data collection device 3b is replaced, that is, when the registration of the power line carrier terminals 4b ₁ to 4 is restored will be described below with reference to FIG. The exchanged data collection device 3b is set to the same feeder number as before, and a registration / repair signal is transmitted via the maintenance terminal 14. The data collection device 3b that has received the registration / repair signal restores the registration information by sequentially calling the power line carrier terminals 4b ₁ through the short call ID and acquiring the terminal ID and the instrument ID. When the repair is completed, the display circuit 28 displays the end of the registration repair. The registration repair operation may be started by a registration repair start switch provided in the data collection device 3, instead of being sent by transmitting a registration repair signal from the maintenance terminal 14.

  Finally, the flow of information at the time of meter reading will be described with reference to FIG. First, when setting the meter reading date and time (for example, 02:00 on the first day of every month), the host 1 transmits a meter reading date and time setting signal to all the data collection devices 3 and receives a response signal indicating the end of setting. Each data collection device 3 starts the meter reading operation at the set meter reading date and time, sequentially calls all the power line carrier terminals 4 designated from the host 1 by the short call ID, and acquires the meter reading value of the meter To send. The received meter reading value is held in the RAM 20. When the meter reading value host collection time is reached (for example, several hours after the meter reading date and time), the host 1 transmits a meter reading value request signal to each data collecting device 3, and the highest data collecting device 3a holds all the data collecting devices 3. The meter reading values to be transmitted are sent to the host 1 at a time.

  As described above, since the power line carrier terminal 4 calls the terminal ID and the instrument ID acquired from the connected instrument to the data collection device 3 for the registration request, the terminal ID, instrument ID recording mistakes and input mistakes can be prevented. Further, by using the short call ID including the feeder number, the terminal ID can be compressed without interference with the power line carrier terminals belonging to other power line feeders, so that the transmission efficiency in the power line carrier section can be improved.

  When the power line carrier terminal 4 receives the abbreviated call ID from the data collection device 3 for the registration request call, the display circuit 40 displays the end of registration, so the power line carrier terminal 4 and the meters 10 to 13 are displayed. Wiring mistakes between them, communication failures between the data collection device 3 and the power line carrier terminal 4 can be confirmed on-site, such as correction of wiring connection, signal level up of the power line carrier terminal 4 etc. Measures can be taken.

  When the data collection device 3 receives the registration request call from the power line carrier terminal 4, the data collection device that communicates with the other data collection device and measures the highest power line carrier signal reception level is called the registration request call. Therefore, even when it is difficult to grasp the power line feeder, the data collection device 3 to which the power line carrier terminal 4 belongs is not mistaken.

  When the registration information of the power line carrier terminal 4 has changed, the data collection device 3 makes a call to the host 1 and transmits the changed registration information. The burden due to manual input of the instrument ID can be reduced. In addition, information can be efficiently given by calling registration change information accumulated for a certain period.

  When the data collection device 3 is exchanged, the data collection device 3 set to the same feeder number as before the exchange calls the power line carrier terminal 4 sequentially with the short call ID, and acquires the terminal ID and the instrument ID, Since the registration information of the power line carrier terminal 4 is restored, the registration information lost due to the exchange of the data collection device 3 can be restored without causing the power line carrier terminal 4 to call again.

  As described above, as an embodiment of the present invention, the example in which wireless communication by the PHS public network is used for mutual communication between the center device, the highest-level data collection device, and the maintenance terminal has been described. The communication is not limited to wireless communication such as PHS, but a telephone line may be used as long as the telephone line can be used, and other communication means may be used.

  Moreover, although the power line carrier is used as a communication medium between the meter-reading terminal and the data collection device, a wireless or other communication medium can be used.

It is a block diagram of the automatic meter-reading system by one Example of this invention. It is a figure which shows the structural example of the data collection device which is one component of the automatic meter-reading system of FIG. The structural example of the power line carrier terminal which is one component of the automatic meter-reading system of FIG. 1 is shown. It is a figure which shows the flow of the information at the time of registration by the automatic meter-reading system of FIG. It is a figure which shows the flow of the information at the time of registration restoration by the automatic meter-reading system of FIG. It is a figure which shows the flow of the information at the time of meter-reading by the automatic meter-reading system of FIG.

Explanation of symbols

1 Host computer (center device)
2a, 2b Low voltage distribution line feeder (power line feeder)
3, 3a, 3b the data collector 4,4a ₁ ~4a _{n, 4b 1} ~ power line terminal 10 lights for electricity meter 11 power power meter 12 meter 13 water meter 15 CPU
16 Power Line 17 Power Line Carrier Modem 22, 24 Communication Line 26 Pushbutton Switch (for Setting Operation Start)
27 Rotary switch (for feeder number setting)
28 Display circuit 29 CPU
30 Power line carrier modem 38 Pushbutton switch (for registration activation request reception)
39 Setting switch (for connecting / disconnecting the instrument)
40 Display circuit

Claims (5)

  A meter reading terminal connected to a meter for measuring a meter reading value, and a data collecting device that is installed for each group of the meter reading terminal and collects meter reading value information from the meter reading terminal belonging to the group by a predetermined communication medium And an automatic meter-reading system comprising a center device that records meter-reading value information collected by the data collecting device, wherein the meter-reading terminal is a meter individual identification acquired from its own terminal individual identification number and a connected meter A number is called to the data collection device for a registration request, and the data collection device gives a short call individual identification number consisting of a group number and a registration number unique to the data collection device to the meter-reading terminal. In the automatic communication, the individual identification is performed by the individual identification number for the short call in the subsequent communication between the data collection device and the meter-reading terminal. Needle system.   The meter reading terminal has a registration activation request accepting unit, an instrument connection presence / absence setting unit, and a registration availability display unit, and when the registration activation request is accepted by the registration activation request acceptance unit, the instrument connection presence / absence setting unit The instrument individual identification number is acquired from all the instruments set to be connected by the above, and the instrument individual identification number and its own terminal individual identification number are called to the data collection device, and from the data collection device 2. The automatic meter reading system according to claim 1, wherein when the short call individual identification number is received, registration completion is displayed on the registration availability display unit.   The data collection device includes means for communicating with the center device, and when the registration information of the meter-reading terminal changes at a predetermined call time to the center device, the center device The automatic meter reading system according to claim 1, wherein the changed registration information is transmitted.   When the data collection device is exchanged, the data collection device set to the same group number as before the exchange sequentially calls the meter-reading terminal with the individual identification number for abbreviated calling, terminal individual identification number, instrument individual identification number The automatic meter-reading system according to claim 1, wherein the registered information of the meter-reading terminal is restored by acquiring the information. Using power line conveyance as a communication medium between the meter reading terminal and the data collecting device, grouping the meter reading terminals for each power line feeder, and setting the data collecting device to set the power line feeder number as a group number Means, a communication means with another adjacent data collection device, and a power line carrier signal reception level measurement means, and when receiving a registration request call from the meter-reading terminal, the other data collection device The automatic meter reading according to any one of claims 1 to 4, wherein the data collection device that has communicated and measured the reception level of the largest power line carrier signal performs registration of the meter reading terminal that has issued the registration request call. system.

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