JP2001144868A - Gas meter reading system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent taking time for development, to reduce a cost for development and to economically constitute a system itself in the development of a gas meter reading system for a multi-dwelling house. SOLUTION: In a system consisting of a center 1, telegraphic message meters 6 for outputting meter reading data and a transmitter 3 for transmitting the meter reading data inputted from the telegraphic message meter to the center through a telephone line, a master repeater 4 is provided between the transmitter and the telegraphic meters and a plurality of telegraphic meters are connected with the master repeater. Further, a plurality of slave repeaters 5 are connected with the master repeater with RS-422 and plural telegraphic message meters are connected with each slave repeaters. Further, a handy terminal 8 is made connectable with the transmitter to transmit and set function setting data from the handy terminal to the telegraphic message meters connected to the master repeater and the telegraphic message meters connected with the slave repeaters.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas metering system for centrally measuring the amount of gas consumed in each household.

[0002]

2. Description of the Related Art It is common for meter readers to measure the amount of gas consumed in each home, etc., on a door-to-door basis every predetermined period. Automatic meter reading systems, which detect gas consumption from gas cylinders, collect meter reading data and perform centralized meter reading, are being introduced. Such a gas meter reading system includes a center, a transmitter disposed in each home and connected to the center via a telephone line, and a telemeter connected to the gas cylinder and reading meter reading data from the gas cylinder and sending the data to the transmitter. It is composed of Here, the transmitter periodically sends a gas meter reading request to the electronic meter every predetermined period based on the setting information set in advance from the center. In response to such a request, the telegram meter reads the current gas usage of the gas cylinder and sends it to the transmitter as meter reading data. Then, the transmitter transmits the gas meter reading data to the center via a telephone line, whereby the center calculates a charge corresponding to the gas usage, and this fee is charged to each household as a gas usage fee.

[0003]

Since two electronic meters can be connected to the transmitter, it is possible to collect meter reading data from two electronic meters with one transmitter. This is effective, for example, in a case where a telegram meter is provided for each household in a two-family house. However, when such a gas metering system is applied to an apartment such as an apartment or a condominium to control gas consumption for each door, one transmitter is required for each door, and the system is economically economical. Not configurable. In addition, a transmitter cannot be installed in a house where a gas line is provided and a telephone line is not provided even in the above-mentioned apartment house, so that automatic gas meter reading becomes impossible. On the other hand, when a new system is developed for such an apartment house, there is a problem that a development period and a development cost are required.

Accordingly, an object of the present invention is to shorten the development period, reduce the development cost, and economically configure the system when developing a meter reading system for performing automatic gas meter reading of an apartment house.

[0005]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to a method of connecting a center for metering the amount of gas consumed by each house within a predetermined period, and a gas cylinder disposed in each house. A telemeter that detects the amount of gas consumed in each house during the predetermined period from the gas cylinder and outputs the meter reading data, and collects meter reading data from the telemeter to collect the meter reading data to the center via a telephone line. In a gas metering system including a transmitter for transmitting, a first repeater (parent repeater) connected to the transmitter;
A plurality of second repeaters (child repeaters) connected to the first repeater via the interface line (7), wherein the first repeater is a first repeater to which a plurality of telegram meters can be connected. , And a second interface connected to the interface line, which is powered by a battery and is always in a non-operating state. Activated by any of them to start operation, and the second repeater has a third interface to which a plurality of telegram meters are connected, and a fourth interface commonly connected to the interface line,
The battery is used as a power source, and is always in a non-operating state. The battery is activated by one of the first repeater and the electronic meter connected thereto, and starts operating to collect meter reading data of the electronic meter. At the time of activation by the meter, the first relay is activated, and at the time of the operation, the first relay collects meter reading data from the electronic meter connected thereto, or transmits the data to the second relay via the second interface. The meter reading data from the connected telegram meter is collected and the collected meter reading data is transmitted to the transmitter. The transmitter has a fifth interface to which a handy terminal can be connected, and from the handy terminal via the fifth interface. When the function setting data is input, the function setting data is transmitted to the first repeater. When the first relay receives the function setting data, the function setting data is transmitted. If the data is the setting data addressed to the telegram meter connected to itself, the function setting data is transmitted to the telegram meter to make the setting, and the function setting data is transmitted to the telegram meter connected to the second repeater. In the case of (2), the corresponding second repeater is activated, the setting data addressed to the telegram meter is transmitted, and then the function setting data is transmitted.
Is transmitted from the repeater to the telegram meter and set.

[0006] As a result, when a system for performing automatic gas meter reading intensively in an apartment house can be developed, it is possible to deal with only partial changes without newly developing the entire system. Since the number of transmitters can be reduced and the number of transmitters can be reduced, the system can be configured economically.
In addition, a large number of electronic meters can be connected to one transmitter, so that it can be efficiently installed even in an apartment house with a large number of houses. Furthermore, the number of cables connecting the repeaters can be reduced, so that the installation work can be simplified and the cost of the system can be reduced. Furthermore,
By connecting a handy terminal to the transmitter, it is possible to set functions for the telemeters from the handy terminal, reducing the setting time compared to when the system maintainer manually sets each telemeter separately. Erroneous setting can be prevented. Further, in the case where the function setting data is downloaded and set for a large number of electronic meters, it is possible to eliminate the influence on the telephone call due to the occupation of the telephone line.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the gas metering system according to the present invention. In FIG. 1, reference numeral 1 denotes a center for performing a centralized meter reading of gas, and the center 1 includes a host computer 11, a transmission interface unit 12, and a reception interface unit 14. Further, 2 switching network, 3 transmitter, 4 is a parent repeater, 5 ₁ to 5 ₇ child repeater, 6 ₁
6 ₈ are message meter connected to each gas cylinder (not shown), respectively.

By the way, the transmitter 3, the master repeater 4, the child relay 5 _{1-5 7} and message meter ₆₁ through _8, located within collective housing such as a condominium, is connected to each individual to each message meter The gas consumption is read from a gas cylinder (not shown) and transmitted to the center 1 via the telephone line and the switching network 2. Here, the configuration of each block of the center 1, the transmitter 3, and the electronic meter 6 is the same as that of the conventional system.
However, in the conventional system, two electronic meters 6 are directly connected to the transmitter 3, so that when applied to an apartment house with a large number of houses, the transmitter 3 is required for each house. . In addition, since the transmitter 3 cannot be installed in a house or a room where a telephone line is not installed even if gas is installed, in such a case, the transmitter 3 is excluded from the subject of the automatic meter reading of the gas, and accordingly, it is collectively regarded as an apartment. Centralized meter reading cannot be performed.

Therefore, a plurality of repeaters are provided between the transmitter 3 and the electronic meter 6, so that a plurality of electronic meters can be connected to each repeater. That is, in this embodiment, the transmitter is connected to the parent relay 4 to 3 existing message meter interface of the parent relay 4 to RS-422 through an interface line 7 seven slave repeaters 51 _to Connect 5 ₇ . Then, configured to be connected to each eight message meter ₆₁ through ₈ in each repeater including the parent repeater. With this configuration, one transmitter can be installed in the apartment house.
With this arrangement, 64 (8 × 8 = 64) electronic message meters can be connected, so that a single transmitter can measure 64 gas cylinders.

FIG. 4 shows the transmission interface unit 1 of the center 1.
2 is a block diagram showing the same configuration as that of the conventional system. That is, the transmission interface unit 12 includes a control unit 121, a host computer interface 122, a speaker drive circuit 123, an LCD control circuit 124,
Control circuit 125, switch input circuit 126, transmission control unit 127, recording / playback circuit 128, microphone input circuit 12
9, a battery 130, a power supply unit 131, and the like. In such a transmission interface unit 12, the control unit 121
In accordance with an instruction from the host computer 11, automatically download setting data of various functions for the transmitter 3 and the electronic message meter 6 from the transmission control unit 127 to the transmitter 3 via the telephone line (transmission line) L1 and the switching network 2. Is conventionally performed. In addition, at the time of this automatic download, a recording / playback circuit 1 is provided so that the download is appropriately performed.
28 sends a voice message to the transmitter 3 side.
In the case of manual download, a telephone is used to call the home where the transmitter 3 is installed in an apartment house using an external telephone, and that the download is to be performed from now on, and the telephone line is connected from the telephone. After switching to the transmitter 3, the above data received from the host computer 11 is downloaded to the transmitter 3.

As described above, in the conventional system, since only two transmitters 3 are provided for one transmitter 3, even if the data is downloaded from the center 1 to the transmitter 3 via the telephone line. The occupation time of the telephone line is short, so that the download of the function setting data has almost no effect on the telephone call. However, as in this embodiment, one transmitter 3 has 6
When four telegram meters are provided, the number of function setting data is large and the telephone line is occupied by downloading, so that the influence on the telephone call is great. For this reason, for example, it has been considered that a system maintenance person goes to the location of each electronic meter arranged in each unit of the apartment house and manually sets the function of each electronic meter one by one. Then, there is a problem that it takes a long time to set and erroneous setting is caused. For this reason, in the present embodiment, as will be described later, the handy terminal 8 is connected to the transmitter 3 so that the function setting information from the handy terminal 8 to each electronic meter or the like can be collectively transmitted and set. .

FIG. 5 is a block diagram of the reception interface unit 14 of the center 1.
Is similar to that of the conventional system. That is, the receiving interface unit 14 includes a control unit 141, a host computer interface 142, a printer interface 14
3, transfer output interface 144, LCD control circuit 1
45, LED control circuit 146, switch input circuit 14
7, reception control unit 148, transmission / reception control unit 149, battery 15
0 and a power supply unit 151. In such a reception interface unit 14, when there is a call from each transmitter via each telephone line (reception line) L2, the control unit 141 controls the reception control unit 148 to automatically respond to this call. ,
It receives gas meter reading data and the like detected by the electronic meter 6 sent from each transmitter and sends it to the host computer 11. The received information is output to a printer (not shown) via the printer interface 143 and printed.

FIG. 6 is a block diagram showing the configuration of the transmitter 3 disposed inside the house. The transmitter 3 is configured as follows. That is, 31 is a control unit, 32 is a transmission / reception control unit connected to the telephone line and transmitting / receiving data to / from the center 1.
Reference numeral 3 denotes a switch, reference numeral 34 denotes a battery serving as a power source of the transmitter, reference numeral 35 denotes a handy terminal interface which is an interface of the above-described handy terminal 8 for performing various settings for the transmitter 3, each of the relays and the electronic meter 6, and reference numerals 36 and 37.
Is a telegram meter interface. Reference numeral 38 denotes a sensor detection circuit that detects the operation of a sensor (not shown), and reference numeral 39 denotes an alarm detection circuit that detects an alarm output of an alarm (not shown).

The configuration of each part of the transmitter 3 is also similar in hardware to the transmitter of the conventional system.
In the present invention, the electronic repeater 4 is connected to this interface, while the electronic meter 6 is connected to each of the interfaces 7 as described above. Here, the transmitter 3 is provided with a clock unit (not shown), and the internal memory of the control unit 31 stores data such as a gas metering date transmitted as setting information from the handy terminal 8 in advance. . In this case, when the date of the clock indicates the date of the gas meter reading, the control unit 31 accesses the parent repeater 4 via the telegram meter interface 36 and is connected to the parent repeater 4 and each child repeater 5. A request for collecting meter reading value data from each telegram meter 6 is made. When the meter reading data of each electronic meter 6 is received from the master repeater 4, the controller 32 controls the transmission / reception control unit 32 to transmit the meter reading data to the center 1 via the telephone line.

When the function setting data is received from the handy terminal 8 via the handy terminal interface 35, the control section 31 stores the function setting data in the internal memory when the function setting data is the setting information addressed to the transmitter 3, and also stores the information other than the transmitter 3 In the case of the setting information, the message meter interface 36
To the parent repeater 4 as setting information for each repeater or each telegram meter to be set. FIG. 7 is a block diagram showing a configuration of the telegram meter 6, which has the same configuration as that used in the conventional system. That is, the telegram meter 6 includes a control unit 61, a communication interface 62, a test switch 63, a battery 64, a valve opening / closing control circuit 65 for opening / closing a valve of a gas cylinder (not shown),
An alarm detection circuit for detecting an alarm output of an alarm (not shown) and a flow detection circuit 6 for detecting a gas flow rate of a gas cylinder.
Consists of seven.

Here, in the conventional system, the communication interface 62 is the telegram meter interface 3 of the transmitter 3.
However, in the present invention, it is connected to a telegram meter interface provided in each repeater, as described later. Then, when there is a request to collect meter reading value data from the repeater side, the control unit 61 sets the flow rate detection circuit 6
The meter reading value data detected through the communication interface 7 is transmitted to the connected repeater via the communication interface 62. As a result, the meter reading value data is sent to the transmitter 3 via the repeater, and further sent to the center 1.

FIG. 2 shows a main repeater 4 showing a main part of the present invention.
FIG. 3 is a block diagram showing the configuration of FIG. The parent repeater 4 is disposed between the transmitter 3 and the telegram meter 6 as described above, and is connected to the transmitter 3 via the telemeter interface 42 so that each ₁ between 6 _8, respectively telegram meter interface 47 _1-47
Connected via ₈ . In addition, each child repeater 5 is RS-
It is connected via a 422 interface 43. In addition,
The rotary switch 45 is for setting the number of the parent repeater 4, and the dip switch 46 is for setting the parent repeater 4 or the child repeater 5.

Incidentally, the parent repeater 4 and a child repeater to be described later
In the device 5, the battery is used similarly to the transmitter 3 and each electronic meter 6.
Used as a power source, thus reducing its power consumption
For example, the control unit 41 of the master repeater 4 controls the above-described units.
Like the unit, it does not always operate. Here, the control unit 41
In the case of, as described later, the transmitter 3, the slave repeater 5, and the
The operation is started by being started by any of the statement meters 6 and
The meter reading value data detected by the sentence meter 6 is relayed. Ma
In the case of the control unit 51 of the child repeater 5 shown in FIG.
It is activated by either the relay 4 or the telegram meter 6 and operates.
Is started, and the meter reading value data detected by the
Succeed. In addition, the child repeater 5 shown in FIG.
The telegram meter interface 42 was deleted from the configuration of the repeater 4.
The other parts are the same as those of the parent repeater 4. Soshi
And the child repeater is connected via the RS-422 interface 53.
Connected to parent repeater 4. Dip switch 56
Is set to be a child repeater, and the rotary switch
If the number of the parent repeater is “1”, seven
Each repeater 5₁ ~ 5 ₇ Corresponding to "2",
.., “8” are set.

Next, the operation of the master repeater 4 and the slave repeater 5 showing the main parts of the present invention configured as described above will be described with reference to FIGS.
A description will be given based on the flowchart of FIG. First, the operation of the control unit 41 of the master repeater 4 will be described based on the flowchart of FIG. As described above, the transmitter 3 requests the parent repeater 4 to collect meter-reading value data from each electronic meter 6 periodically, for example, once a month. Such a request for collecting meter reading value data is sent to the telegram meter interface 4.
2, the control unit 41 is activated in step S1. When the control unit 41 starts up from the sleep state, the control unit 41 determines in steps S2, S3, and S4 where the activation is requested.
To judge.

In this case, since the request is an activation request from the transmitter 3, the determination in step S3 is "Y". Subsequently, in step S5, whether or not the data collection request from the transmitter 3 is a request for data for a telegram meter connected to which relay is determined by a relay number (unit number) and a meter number added to the data. Then, the setting contents of the rotary switch 45 and the meter number stored in the internal memory of the control unit 41 in advance are compared and determined. As a result of this determination, when it is determined that the request is for the telegram meter connected to the slave repeater and the answer is “Y” in step S6, polling on the slave repeater side is started via the RS-422 interface 43 in step S7. At this time, the above-mentioned repeater number and the like are also transmitted to activate the slave repeater and select the corresponding repeater.

Here, of the slave repeaters that have been polled and activated, a response from the slave repeater whose repeater number matches is detected via the RS-422 interface 43, and the determination in step S8 is "Y". Then, in step S9, a data request is made to the corresponding child repeater. In response to this data request, the corresponding child repeater issues a metering value data collection request to the electronic meter having the same number as the above-mentioned meter number connected to itself. When the meter reading value data is received from the electronic meter, the meter reading value data is transmitted to the parent repeater 4. In step S10, it is determined whether or not the meter reading data has been normally received. If the meter reading data has been normally received, the meter reading data is transmitted via the telegram meter interface 42 together with the corresponding repeater number and meter number in step S11. To the device 3.

If the data request from the transmitter 3 is a request addressed to the telegram meter connected to itself, and if the determination in step S6 is "N", then in step S12 this telemeter and the telemeter interface Data communication is carried out via 47, and meter reading value data is collected from the electronic meter. Then, in step S13, a meter call for calling the transmitter 3 to transmit the meter reading value data is performed, and after detecting a response from the transmitter 3, the meter reading value data is transmitted in step S14. After the activation request is made in step S1, if the activation request is determined to be a request from a telegram meter connected to itself via the telegram meter interface 47 and becomes "Y" in step S4, the activation request is also made. In step 12, data communication is performed with the electronic message meter, and meter reading value data is collected and transmitted to the transmitter 3.

If, after the activation request is made in step S1, this activation request is determined to be a request from the child repeater 5 connected via the RS-422 interface 43 and the result is "Y" in step S2, In step S15, the RS-42 is used to check which child repeater is the request.
The polling on the slave repeater side is started via the second interface 43, and at this time, the repeater number of each slave repeater is also sequentially transmitted. Here, if a response from the child repeater that has made the above request is detected via the RS-422 interface 43 and the determination in step S16 becomes "Y", step S16 is executed.
At 17, a data request is made to the corresponding child repeater. In response to this data request, the corresponding child repeater transmits the meter reading value data of the electronic meter connected to itself and already collected to the parent repeater 4.

In step S18, it is determined whether or not the meter reading value data has been normally received.
In step S19, a meter call for transmitting the meter reading value data to the transmitter 3 is performed. After detecting the response of the transmitter 3, the meter reading value data is transmitted together with the corresponding repeater number and meter number in step S20. The message is transmitted to the transmitter 3 via the telegram meter interface 42. In this way,
The parent repeater 4 collects meter reading value data of the electronic meter connected to the child relay device 5 and meter reading value data of the electronic meter connected to itself, and transmits them to the transmitter 3. As a result, each meter reading value data is sent from the transmitter 3 to the center 1.

Next, the operation of the control unit 51 of the slave repeater 5 will be described with reference to the flowchart of FIG. When activated in step S1, the control unit 51 determines in steps S32 and S33 whether the activation is initiated from the parent repeater 4 or from the electronic meter 6 connected thereto. Here, if the determination in step S32 is “Y”, it means that the activation is based on the result of polling from the parent repeater 4 via the RS-422 interface 53. In this case, the activation from the parent repeater 4 is performed. In step S34, a polling data waiting process for detecting whether or not the repeater number transmitted together with the polling matches the setting of the rotary switch 55 set as its own repeater number is performed. If they match, a response signal is sent back.

Next, it is determined in step S35 whether or not there is a data request from the parent repeater 4 in response to the return of the response signal.
If there is a data request, once the response data is transmitted to the parent repeater 4 in step S36, meter reading value data is collected from the electronic meter corresponding to the corresponding meter number connected to itself, and the parent relay is performed in step S37. The collected meter reading value data is transmitted to the measuring device 4. After the activation request is made in step S31, this activation request is
7 is determined to be a request from a telegram meter connected to itself, and if "Y" is determined in step S33, data communication is performed with the telegram meter in step S38, and meter reading value data is collected from the telemeter. . Then, in step S39, in order to transmit this meter reading value data, the parent repeater 4
Then, a start request is made via the RS-422 interface 53.

In step S40, the system waits for polling data transmitted from the parent repeater 4 in response to the activation request, and the repeater number at the time of polling from the parent repeater 4 is the same as the setting contents of its rotary switch 55. If they match,
In step S41, response data is transmitted to the parent repeater 4.
Then, when there is a data request from the parent repeater 4 in response to the transmission of the response data, the meter reading value data and the meter number of the electronic meter that have already been collected are transmitted to the parent repeater 4 in step S42. In this manner, the slave repeater 5 transmits the meter reading value data of the electronic meter connected thereto to the master repeater 4 via the RS-422 interface 53. As a result, each meter reading value data is sent from the parent repeater 4 to the transmitter 3, and further sent from the transmitter 1 to the center 1.

By the way, various functions are set for the parent repeater 4, each child repeater 5, each electronic meter and the transmitter 1 from the handy terminal 8 connected to the transmitter 1 as described above. ing. Here, the information set in the transmitter 1 includes, for example, information on a designated meter reading date and time, a telephone line type (DP / PB), a telephone number of the center 1, a house code, and a meter connection designation. The information set for each repeater includes the number of each repeater and the meter number of each electronic meter connected to the repeater, and the setting information of each electronic meter includes gas remaining amount management. There is information such as the presence or absence of a function, the presence or absence of a minute leak monitoring function, and the presence or absence of a gas adjustment pressure abnormality detection function.

FIG. 10 is a flowchart showing the operation of the transmitter 3 when the above-described function setting is performed from the handy terminal 8. The function setting operation for each relay and each electronic meter will be described based on this flowchart. Handy terminal interface 35 of transmitter 3
When there is a data transmission request from the handy terminal 8 via the PC, the control unit 31 determines that the “data request from the handy terminal” in step S51 of FIG. 10A is “Y”. In this case, the control unit 31 performs a data download process of downloading the data transmitted from the handy terminal 8 to each of the repeaters or each of the electronic meters at step S52.
Run with

FIG. 10B is a flowchart showing details of the data download process. That is, when there is a data transmission request from the handy terminal 8, the control unit 31 determines in step S61 and S66 whether the transmission data, that is, the function setting data is directed to the repeater or the telegram meter, respectively. If it is the repeater setting data, a path to the repeater is set in step S62. That is, if the setting data is to be set in the parent repeater 4, the fact is transmitted from the telegram meter interface 36 to the control unit 41 via the telegram meter interface 42 of the parent repeater 4, and only the parent relay 4 is , Data from the handy terminal 8 can be transmitted. If the data is set in the child repeater, the fact is transmitted to the parent repeater 4,
The parent repeater 4 allows subsequent data to be transmitted to the corresponding child repeater.

In this way, the data from the handy terminal 8 is downloaded to the corresponding repeater and stored in the internal memory of the control unit in the corresponding repeater. If the download is normally performed and the determination in step S64 is “Y”, the setting process is terminated as it is.
A data retransmission preparation for receiving and storing the setting data again from the handy terminal 8 is performed in step S65,
Thereafter, the process returns to step S63 to execute the download again. On the other hand, if the function setting data from the handy terminal 8 is destined for the electronic meter and the determination in step S66 is "Y", a path to the electronic meter is connected in step S67, and the data for the electronic meter is connected in step S68. Execute the download.

That is, in this case, the control unit 31
Is transmitted to the control unit 41 of the above. Then, if this is the function setting for the message meter connected to itself, the control unit 41 of the master repeater 4 receives the subsequent data and transmits it to the message meter. If the data is function setting data for a telegram meter connected to the slave repeater, the corresponding slave repeater is activated and transmitted to that effect, and when the subsequent data is received, the received data is sent to the corresponding slave repeater. Send As a result, the function setting data is transmitted to the electronic meter connected thereto via the slave repeater, and various functions are determined. Thus, the data is downloaded to the corresponding telegram meter. If the download is performed normally, the setting process is terminated as it is. If the result of the download is abnormal, “prepare for data retransmission” is performed in step S70, and the process returns to step S68 to download again.

As described above, since the function setting can be collectively performed for each of the relays and the electronic meters by the handy terminal 8, the setting can be performed in comparison with the case where the system maintenance person manually sets each electronic meter individually. The time can be shortened and erroneous setting can be prevented. Further, when a large number of electronic meters are connected to one transmitter 3 and the function setting data is downloaded and set for the large number of electronic meters, the influence on the telephone call due to the occupation of the telephone line is given. Can be eliminated. In this embodiment, the function setting data is transmitted and set from the handy terminal 8, but it is also possible to transmit and set the function setting data from the center 1. That is, in this case, when the control unit 31 of the transmitter 3 receives the setting information and the like from the center 1 via the telephone line and the transmission / reception control unit 32, the setting information addressed to the transmitter 3 is stored in the internal memory and In the case of setting information other than that of the transmitter 3, the parent repeater 4 is transmitted via the telegram meter interface 36.
Sends the setting information of each repeater or each telegram meter to the side and makes it set.

[0034]

As described above, according to the present invention, the center for centrally measuring the amount of gas consumed by each house within a predetermined period, and the center connected to the gas cylinder disposed in each house for the predetermined period, A telemeter that detects the amount of gas consumed in the gas cylinder and outputs it as meter reading data,
A first relay connected to the transmitter, a first relay connected to the transmitter, and a first relay connected to the transmitter that transmits the meter reading data to the center via a telephone line when the meter reading data from the electronic meter is collected. A plurality of second repeaters connected to the device via an interface line, wherein the first repeater has a first interface to which a plurality of telegram meters can be connected, and a second interface connected to the interface line. An interface, which is powered by a battery and is always in a non-operating state, and is started up by one of the transmitter, the second repeater and the telegram meter connected thereto, and starts operating. Have a third interface to which a plurality of telemeters are connected, a fourth interface to be commonly connected to an interface line, and use a battery as a power source. It is always in a non-operating state and is started by any one of the first repeater and the electronic meter connected thereto to start the operation and collect meter reading data of the electronic meter. When the repeater is activated, the first repeater collects meter reading data from the electronic meter connected to itself during the operation, or reads the meter from the electronic meter connected to the second repeater via the second interface. While collecting data and transmitting the collected meter reading data to the transmitter, the transmitter has a fifth interface to which a handy terminal can be connected, and when the function setting data from the handy terminal is input via the fifth interface, The function setting data is transmitted to the first repeater. When the first relay receives the function setting data, the function setting data is connected to itself. In the case of the setting data addressed to the sentence meter, the function setting data is transmitted to the electronic meter to be set, and in the case where the function setting data is the setting data addressed to the electronic meter connected to the second repeater, the corresponding second data is set. After transmitting the setting data addressed to the telegram meter and transmitting the function setting data, the second relay device transmits the setting data to the telegram meter so that the setting can be performed. When developing a system that automatically performs gas meter reading, it is possible to reduce development time and development costs, and further reduce the number of transmitters, because it is possible to deal with only partial changes without newly developing the entire system. Therefore, the system can be constructed economically. In addition, a large number of electronic meters can be connected to one transmitter, so that it can be efficiently installed even in an apartment house with a large number of houses.
Furthermore, the number of cables connecting the repeaters can be reduced, so that the installation work can be simplified and the cost of the system can be reduced. Furthermore, since a handy terminal can be connected to the transmitter and the function settings for the telemeters can be made from the handy terminal, the setting is not required as compared to the case where the system maintainer manually sets each telemeter separately. The time can be shortened and incorrect setting can be prevented.
Further, in the case where the function setting data is downloaded and set for a large number of electronic meters, it is possible to eliminate the influence on the telephone call due to the occupation of the telephone line.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a gas metering system according to the present invention.

FIG. 2 is a block diagram of a parent repeater constituting the system.

FIG. 3 is a block diagram of a child repeater constituting the system.

FIG. 4 is a block diagram of a transmission interface unit in a center constituting the system.

FIG. 5 is a block diagram of a reception interface unit in a center constituting the system.

FIG. 6 is a block diagram of a transmitter constituting the system.

FIG. 7 is a block diagram of a telegram meter included in the system.

FIG. 8 is a flowchart showing the operation of the parent repeater.

FIG. 9 is a flowchart showing the operation of the slave repeater.

FIG. 10 is a flowchart showing a function setting operation of the transmitter.

[Description of Signs] 1 ... center, 2 ... switching network, 3 ... transmitter, 4 ... parent repeater,
5 _{1-5 7} ... child repeater, ₆₁ through ₈ ... message meter, 7 ...
RS-422 interface line, 8 ... handy terminal, 31, 41, 51, 61 ... control unit, 35 ... handy terminal interface, 36, 37, 42, 47,
57: Telegram meter interface, 43, 53 ... RS-
422 interface, 62 ... communication interface, 6
7 ... Flow detection circuit.

Claims (1)

[Claims] 1. A center for centralized meter reading of the amount of gas consumed by each house within a predetermined period; and a gas cylinder connected to a gas cylinder provided in each house, and the gas consumption of each house within the predetermined period is measured from the gas cylinder. A gas meter system for detecting and outputting meter reading data as a meter reading data, and a transmitter for transmitting the collected meter reading data to the center via a telephone line when collecting meter reading data from the meter meter; And a plurality of second repeaters connected to the first repeater via an interface line.
The first repeater has a first interface to which a plurality of telemeters can be connected, a second interface connected to the interface line, and uses a battery as a power source. And is always in a non-operating state and is started up by one of the transmitter, the second repeater and the telegram meter connected thereto, and starts operating, and the second repeater has a plurality of A third interface to which the telegram meter is connected, and a fourth interface commonly connected to the interface line,
And while using the battery as a power source, it is always in a non-operating state and is started by any one of the first repeater and the electronic meter connected thereto to start operation and collect meter reading data of the electronic meter, And at the time of starting by the telegram meter, the first relay device is started, and the first relay device collects meter reading data from the telegram meter connected to the first relay device at the time of the operation, or performs the second relay via the second interface. Collecting the meter reading data from the telegram meter connected to the second repeater, transmitting the collected meter reading data to the transmitter, the transmitter having a fifth interface to which a handy terminal can be connected, When the function setting data from the handy terminal is input through the interface of (1), the function setting data is transmitted to the first repeater. When the function setting data is received, if the function setting data is the setting data addressed to the electronic meter connected thereto, the function setting data is transmitted to the electronic meter for setting, and the function setting data is transmitted to the second relay. In the case of the setting data addressed to the telegram meter connected to the device, the second relay is activated to transmit the setting data addressed to the telegram meter, and then the function setting data is transmitted to the second relay. A gas metering system characterized in that it is transmitted to a telegram meter for setting.