JP2004013386A - Communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a service sufficient to cope with diversifying customer needs by gathering information on gas devices on customer's side or controlling the gas devices by communication with a server via the Internet. <P>SOLUTION: In a communication system 1, an automatic meter-reading cyclic program 26 for a gas meter is forwarded first to a client 18 in a house 13 of a customer A from a server 17 of a center 11 of a gas company to be executed. Next, the program is forwarded to the main device of a client 19 in a house 14 of a next customer B from the main device 41 of the client 18 in the house 13 of the customer A, and then it is forwarded to customers C and D, repeated similarly, and lastly it is forwarded to a server 17 of the center 11 of the gas company from the main device of the last customer. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a communication system that handles information about a gas device on a client side.
[0002]
[Prior art]
Conventionally, for example, in the automatic meter reading system 201 as shown in the schematic diagram of FIG. 15, the NCUs 204, 206, 208 of each customer are connected between the gas meters 205, 207, 209,. ,... And the public telephone network 203, and information exchange of many meter reading messages and meter reading values is performed by synchronous communication, thereby performing automatic meter reading of the gas meters 205, 207, 209,. Also, here, for example, an automatic security service to the customer can be provided by synchronously transmitting a shut-down message instructing to automatically close the gas tap and a communication message in response to automatically closing the gas tap. You can do it too.
[0003]
[Problems to be solved by the invention]
However, in the automatic meter reading system 201 of FIG. 15, since the information exchange is performed by synchronous communication, the meter reading operation in which the information exchange work is concentrated at one time places a heavy load on the center device 202, and it is necessary to correspond to many customers. , A huge capital investment was required. Since a communication program for exchanging information with the center device 202 has already been installed in each customer's NCUs 204, 206, 208,... Problems such as stability and compatibility had to be cleared, and many costs were required.
[0004]
In this case, the services that can be provided by the automatic meter reading system 201 in FIG. 15 are limited, and cannot sufficiently respond to diversifying customer needs.
[0005]
Therefore, the present invention is a communication system made in order to solve the above-mentioned problems, and performs various kinds of information collection or control on a gas device on a client side by communicating with a server side via the Internet. It is an object of the present invention to provide services that can sufficiently respond to the needs of customers that are becoming increasingly sophisticated.
[0006]
[Means for Solving the Problems]
The invention according to claim 1, which has been made to solve the above problem, is a communication system having a server and each client connected to the server via the Internet, wherein each client can communicate with the server. A main device connected to the main device, and a connection device that allows the main device and the gas device to communicate with each other, wherein the traveling program transferred from the server to a predetermined client includes a data collection unit and data for the gas device. After collecting data related to the gas device in the main device of the client, the data is transferred to the main device of the next client, so that the client makes a round of each client and returns to the server. , Is characterized.
[0007]
According to a second aspect of the present invention, in the communication system according to the first aspect, the data on the gas device is an energy consumption or a device property of the gas device.
[0008]
In the communication system of the present invention having such features, the patrol program related to the gas device is first transferred from the server to the main device of a certain client and executed. The process is repeated by being transferred to the main device and executed, and finally transferred from the main device of the last client to the server, so that it is possible to go around the main device of each client via the Internet. At this time, in each client, data collection on the gas device is performed by the data collection unit by executing the patrol program by the main device, and the main device transmits information on the gas device via the connection device. Acquisition and processing can be performed, and further, information and processing information on the gas device can be written in the data storage area of the traveling program.
[0009]
That is, in the communication system of the present invention, the patrol program relating to the gas device obtains information relating to the gas device of each client via the connection device by returning to the server through the main device of each client via the Internet. In addition, since information on the gas devices of each client can be collected on the server, the information gathering on the gas devices on the client side is handled through the Internet by communicating with the server via the Internet, thereby diversifying customers. It is possible to provide a service that can sufficiently respond to the needs of each client, and furthermore, the load is distributed to the main device of each client and the load on the server is reduced, so that the running cost can be reduced. Become.
[0010]
The information on the gas device includes the energy consumption of the gas device, device properties (state values), and the like. In this regard, even if there is a change in the collected contents of the data related to the gas device, it is possible to cope by issuing a revised patrol program from the server again.
[0011]
According to a third aspect of the present invention, there is provided a communication system having a server and each client connected to the server via the Internet, wherein each client is connected to the server. A main device communicably connected, and a connection device that enables the main device and the gas device to communicate with each other, wherein the autonomous execution type program related to the gas device is transferred / resident from the server to each client. It is characterized.
[0012]
In the communication system of the present invention having such features, an autonomous execution type program (a program for selecting and executing means / procedures according to a situation) relating to a gas device is transmitted from a server to a main device of each client via the Internet. Transferred / resident. Thereafter, in the client, the autonomous execution type program is executed by the main device, thereby controlling the gas device and providing automation and services.
[0013]
That is, in the communication system of the present invention, the autonomous execution type program related to the gas device is transferred / resident in the main device of each client via the Internet, and the execution type program is executed to control the gas device. In addition to providing automation and services, by handling communication with the server side via the Internet and controlling the gas equipment on the client side via the Internet, it is sufficient to respond to diversifying customer needs. This makes it possible to provide a service that allows the client to perform operations related to the gas equipment of each client.
[0014]
According to a fourth aspect of the present invention, there is provided a communication system having a server and each client connected to the server via the Internet, wherein each client is connected to the server. A main device that is communicably connected, and a connection device that makes the main device and the gas device communicable, comprising: a first autonomous execution program for communicating with the gas device from the server to each client. After each transfer / resident, a second autonomous execution type program for controlling the gas device and providing automation and service is provided in response to a request from the first autonomous execution type program. It is characterized in that the executable type program is transferred and resident from the server to the client resident.
[0015]
In the communication system of the present invention having such features, a first autonomous execution type program (a program for selecting and executing means / procedures according to a situation) for communicating with a gas device is transmitted from a server via the Internet. It is transferred and resident in the main device of each client. Thereafter, in each client, the first autonomous execution type program is executed by the main device. As a result, if it is determined that a second autonomous execution type program (a program for selecting and executing means / procedures according to the situation) is necessary, the second autonomous execution type program is transmitted to the client via the Internet. Is transferred / resident from the server to the main device. Thereafter, in the client, the second autonomous execution type program is executed by the main device, thereby controlling the gas device and providing automation and services.
[0016]
That is, in the communication system of the present invention, the first autonomous execution type program for communicating with the gas device is transferred / resident in the main device of each client via the Internet, and the executed first autonomous execution type program is executed. In response to a request from the program, the second autonomous execution type program is transferred and resident on the main device of the client via the Internet, and the second autonomous execution type program is executed. Since control and automation and services are provided, communication with the server side via the Internet and handling of the gas equipment control on the client side via the Internet sufficiently respond to diversifying customer needs. Services that can be provided by It is possible to automate the operations involved in the gas system.
[0017]
According to a fifth aspect of the present invention, there is provided the communication system according to the third or fourth aspect, wherein at least an abnormality detection / inspection of the gas device, a leakage detection / inspection of the gas pipe system, and a gas abnormality are detected. It is characterized in that any one of use detection / inspection and gas supply abnormality detection / inspection is performed.
[0018]
Here, the detection and inspection of gas equipment abnormalities, the detection and inspection of gas pipe leaks, the detection and inspection of abnormal gas use, and the detection and inspection of gas supply abnormalities are performed. Can be dealt with by reissuing the revised first or second autonomous executable program from the server.
[0019]
According to a sixth aspect of the present invention, there is provided the communication system according to any one of the first to fifth aspects, wherein at least a financial institution, a repair company, or a sales company connected via the Internet. The information on the gas device is provided to any one terminal device of the company.
[0020]
That is, in the communication system of the present invention, the information and processing information relating to the gas devices of each client gathered in the server are at least one of a financial institution connected via the Internet, a repair company, and a sales company. Since the information is provided to the terminal device, it is possible to quickly respond to the fee collection and maintenance of the gas device of each client.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows an outline of a communication system 1 according to the present embodiment. As shown in FIG. 1, in the communication system 1 according to the present embodiment, a server 17 in a center 11 of a gas company, a client 18 in a house 13 of a customer A of the gas company, The client 19 in the house 14 of the customer B of the company, the client 20 in the house 15 of the customer C of the gas company, and the client 21 in the house 16 of the customer D of the gas company are connected.
[0022]
In this regard, not only the clients 18, 19, 20, 21 in the houses 13, 14, 15, 16 of the four customers A, B, C, D shown in FIG. It is also connected to multiple clients in the homes of gas company customers.
[0023]
In addition, the center 11 of the gas company collects information on the gas devices of the customers A, B, C, D, and the like via the server 17 connected to the Internet 12 so that each customer A, B, C , D and the like.
[0024]
On the other hand, the client 18 in the house 13 of the customer A is the LAN shown in FIG. 2, and includes the main device 41, the first connection device 51, the second connection device 61, the sensor 71, the gas device 56, the gas meter 66, and the like. They are connected by electric wires or radio.
[0025]
In this regard, the main device 41 includes an interface 42, a CPU 43, a memory 44, and the like. The information is stored in the memory 44 as the latest information such as gas equipment information 45 and gas meter information 46, and various information is provided to the customer A via a monitor (not shown). Furthermore, the main device 41 registers various parameters in the server 17 of the center 11 of the gas company, so that a setup operation caused by a power failure or the like can be smoothly performed.
[0026]
The first connection device 51 includes interfaces 52 and 55, a CPU 53, a memory 54, and the like, and connects a gas appliance 56 such as a water heater to the LAN. The memory 54 stores gas device information 57 relating to the gas device 56, a message conversion program 58 for performing data communication with the gas device 56, and the like. The message conversion program 58 can be downloaded and rewritten by the main device 41 or the server 17 of the center 11 of the gas company in FIG.
[0027]
The second connection device 61 includes interfaces 62 and 65, a CPU 63, a memory 64, and the like, and connects the gas meter 66 to the LAN. The memory 64 stores gas meter information 67 on the gas meter 66 such as a pointer value, a telegram conversion program 68 for performing data communication with the gas meter 66, and the like. The message conversion program 68 can be downloaded and rewritten by the main device 41 or the server 17 of the center 11 of the gas company in FIG.
[0028]
These points are not limited to the client 18 in the house 13 of the customer A in FIG. 2 but also the clients 19 in the houses 13, 14, 15, and 16 of the other customers B, C, and D shown in FIG. , 20, 21 and a plurality of clients connected to the Internet 12 shown in FIG.
[0029]
Next, the automatic meter reading for the gas meter in the house of each customer of the gas company performed in the communication system 1 of the present embodiment will be described with reference to the flowchart of FIG. As shown in FIG. 3, first, in S11, the automatic meter reading patrol program 26 (see FIG. 1) is transmitted from the server 17 of the center 11. At this time, in the automatic meter reading patrol program 26, a data storage area 81 as shown in FIG. In this regard, in the column of “customer ID”, the number of the customer ID has already been written in the order in which the automatic meter reading patrol program 26 circulates this time, with about 100 as a guide. In the column of “contract type”, contract types A, B, C, D and E (see FIG. 6) having different usage fee calculation systems are already written so as to correspond to each customer. ing. In the column of "previous guideline", the guideline value acquired when the previous automatic meter reading patrol program 26 has been visited has already been written so as to correspond to each customer. In the column of “payment last month”, whether or not the gas usage fee was paid last month is already written as “OK” or “NG” so as to correspond to each customer. At this stage, nothing is written in the “guideline value”, the “usage amount”, the “charge”, and the “calculation result”.
[0030]
Then, in S12 of FIG. 3, it is determined whether or not the current process of the automatic meter reading patrol program 26 has been completed. Specifically, for the customer corresponding to the customer ID written in the last cell of the “customer ID” column of the data storage area 81 in FIG. 4A, it is determined whether or not the automatic meter reading has been completed. I have. Here, when it is determined that the process is completed for the current automatic meter reading patrol program 26 (S12: Yes), the process is ended while the flowchart is ended, and when it is determined that the process is not completed. (S12: No), the process proceeds to S13, where the automatic meter reading patrol program 26 is transferred to a certain customer's main device. Specifically, here, since the automatic meter reading patrol program 26 has just transmitted from the server 17, the customer ID written in the first cell of the “customer ID” column of the data storage area 81 in FIG. Transferred to the corresponding customer's main unit. In FIG. 1, the automatic meter reading patrol program 26 transmitted from the server 17 is transferred to (the main device 41 (see FIG. 2) of) the client 18 in the house 13 of the customer A via the route 21 of the Internet 12. You.
[0031]
Then, in S14 of FIG. 3, it is determined whether or not the current meter reading of the gas meter has already been performed. Here, when it is determined that the current meter reading of the gas meter has already been performed (S14: Yes), the process proceeds to S15, and the current meter value of the gas meter is acquired from the main device. Specifically, referring to FIG. 2, the current meter reading of the gas meter 66 is already automatically performed by the program stored in the memory 64 of the second connection device 61, and the pointer value of the gas meter 66 is changed to the second connection value. Since it is stored as gas meter information 67 in the memory 64 of the device 61 and is also transferred to the memory 44 of the main device 41 and stored as the gas meter information 46, the pointer value of the gas meter 66 obtained from the gas meter information 46 is As shown in FIG. 4 (b), this is done by writing in the “guideline value” column of the data storage area 81 of the current automatic meter reading patrol program 26. Further, as shown in FIG. 5, in the data storage area 91 of the current automatic meter reading patrol program 26, the above guideline value is overwritten and "OK" is written in the column where the customer ID of the customer is described.
[0032]
Then, in S16 of FIG. 3, the gas usage fee is calculated from the current guideline value of the gas meter 66 using the fee menu 101 of FIG. Specifically, as shown in FIG. 4 (b), in the data storage area 81 of the current automatic meter reading patrol program 26, the difference between the numerical values of the “guideline value” column and the “previous guideline” column indicates the current gas value. The usage amount is calculated and written in the “usage amount” column, and the gas usage fee is calculated from the parameters A, B, C, D, and E in the “contract type” column and the fee menu 101 in FIG. Write in the "Fee" column. Further, “Done” is written in the “Reading result” column.
[0033]
Then, in S17 of FIG. 3, the gas usage fee is transmitted to the customer. Specifically, referring to FIG. 2, a monitor (not shown) connected to the main device 41 displays a numerical value in a “fee” column of the data storage area 81 in FIG. Inform customer A of the gas usage fee.
[0034]
Thereafter, in S18 of FIG. 3, it is determined whether there is a non-payment of the gas usage fee. Here, if it is determined that there is no nonpayment of the gas usage fee (S18: No), the process returns to S12 without doing anything, but if it is determined that there is a nonpayment of the gas usage fee (S18: Yes). ), Proceeding to S19, closing the gas stopper to prohibit use, and then returning to S12. Specifically, in FIG. 2, a program stored in the memory 64 of the second connection device 61 performs control to close the gas tap built in the gas meter 66.
[0035]
Then, after returning to S12, as described above, it is determined whether or not the current automatic meter reading patrol program 26 has completed its process. More specifically, here, the automatic meter reading patrol program 26 sends the main device of the customer corresponding to the customer ID written in the first cell of the “customer ID” column of the data storage area 81 in FIG. After the transfer, the process proceeds to S13 (S12: No), and the automatic meter reading patrol program 26 stores the customer written in the second cell of the "customer ID" column of the data storage area 81 in FIG. The ID is transferred to the customer's main device corresponding to the ID. In FIG. 1, the automatic meter reading patrol program 26 sends a request from the client 18 in the customer A's house 13 (the main device 41 (see FIG. 2)) to the customer B's house 14 via the route 22 of the Internet 12. To the client 19 (main device).
[0036]
Here, for the customer B, in S14 of FIG. 3, it is determined that the automatic meter reading of the gas meter this time has not already been performed (S14: No), and as shown in FIG. In the data storage area 81 of the meter reading patrol program 26, “re-metering” is written in the column of “metering result”. Further, as shown in FIG. 5, in the data storage area 91 of the current automatic meter reading patrol program 26, while maintaining the previous guideline value already written in the column where the customer ID of the customer is described, “ "NG" is written. Then, proceeding to S20, the main device is instructed to carry out the meter reading of the gas meter, and in S21, "Measurement is being performed" is notified to the center 11 of the gas company, and thereafter, the process returns to S12. At this time, the center 11 of the gas company performs a process of incorporating the customer B into the re-run of the automatic meter reading.
[0037]
Thereafter, the processing after S13 is repeated, so that the automatic meter reading patrol program 26 of this time is transmitted from the main device of the client 19 in the house 14 of the customer B via the route 23 of the Internet 12 in FIG. Is transferred and executed to the main device of the client 20 in the house 15 of the customer C, and further transmitted from the main device of the client 20 in the house 15 of the customer C via the route 24 of the Internet 12 to the inside of the house 16 of the customer D. Is transferred to the main device of the client 21 and executed. This transfer / execution is performed in the order of the customer ID written in the “customer ID” column of the data storage area 81 in FIG. 4A, and the “customer ID” in the data storage area 81 in FIG. Is transferred and executed to the customer's main device corresponding to the customer ID written in the last cell in the column of (1), and is transferred to the server 17 of the center 11 of the gas company via the route 25 of the Internet 12 (S12). : Yes).
[0038]
Thus, the center 11 of the gas company can execute, via the automatic meter reading patrol program 26, all the customers corresponding to the customer IDs written in the “customer ID” column of the data storage area 81 in FIG. The automatic meter reading of the gas meter can be performed, and further, data such as the guide value of the gas meter, the gas usage, and the gas usage fee can be obtained.
[0039]
In FIG. 2, the automatic meter reading of the gas meter 66 and the acquisition and transfer of the gas meter information 46 and 67 are performed by a program stored in the memory 64 of the second connection device 61. 1 can be downloaded and rewritten by the server 17 of the center 11 of the gas company shown in FIG. 1, thereby making it possible, for example, to change the meter reading time, meter reading by time zone, and measure the usage of a specific gas appliance. It becomes.
[0040]
Next, an automatic failure diagnosis of gas equipment in a house of each customer of the gas company performed in the communication system 1 of the present embodiment will be described with reference to flowcharts of FIGS. First, in S31 of FIG. 8, as shown in FIG. 7, the failure inspection program 31 (corresponding to the "first autonomous execution type program") is transmitted from the server 17 of the center 11. At this time, in the failure inspection program 31, the data storage area 111 as shown in FIG. 9 is secured, and the number of the customer ID to which the failure inspection program 31 is distributed is already written in the "customer ID" column. Have been.
[0041]
Then, in S32 of FIG. 8, it is determined whether or not the list of the failure inspection program 31 is completed. Specifically, for the customer corresponding to the customer ID written in the last cell of the “customer ID” column of the data storage area 111 in FIG. 9, the determination is made based on whether or not the failure inspection program 31 has been delivered. . Here, if it is determined that the list of the failure inspection program 31 has been completed (S32: Yes), this flowchart is ended. However, if it is determined that the list has not been completed (S32: No), the process proceeds to S33, where the failure inspection program 31 is transferred and resident in a certain customer's main device. Specifically, here, since the failure inspection program 31 has just transmitted from the server 17, the customer ID corresponding to the customer ID written in the first cell of the “customer ID” column of the data storage area 111 in FIG. Transferred and resident in the main unit. In FIG. 7, the failure inspection program 31 transmitted from the server 17 is transferred / resident on the client 18 in the house 13 of the customer A (the main device 41 (see FIG. 2)) via the route 34 of the Internet 12. Is done.
[0042]
Thereafter, the process returns to S32, and as described above, it is determined whether or not the list of the failure inspection program 31 has been completed. Specifically, here, the failure inspection program 31 is transferred and resident in the main device of the customer corresponding to the customer ID written in the first cell of the “customer ID” column of the data storage area 111 in FIG. After that, the process proceeds to S33 (S32: No), and the failure inspection program 31 stores the customer ID corresponding to the customer ID written in the second cell of the "customer ID" column of the data storage area 111 in FIG. Transferred and resident in the main unit. In FIG. 7, the failure inspection program 31 transmitted from the server 17 is transferred and resident on the client 19 (the main device thereof) in the house 14 of the customer B via the route 34 of the Internet 12.
[0043]
After that, the processing of S32 and S33 is repeated, so that the failure inspection program 31 transmitted from the server 17 is transmitted to the client 20 in the house 15 of the customer C via the route 34 of the Internet 12 in FIG. It is transferred and resident on the main device, and further transferred and resident on the main device of the client 21 in the house 16 of the customer D. That is, this transfer / resident is performed in the order of the customer ID written in the “customer ID” column of the data storage area 111 of FIG. This flow chart ends when the data is transferred and resident to the customer's main device corresponding to the customer ID written in the cell (S32: Yes).
[0044]
In this way, at the time when the flowchart of FIG. 8 is completed, the failure inspection program 31 in all the main devices of the customer corresponding to the customer ID written in the “customer ID” column of the data storage area 111 of FIG. Is being transferred and resident.
The transfer / resident of the failure inspection program 31 is performed in the order of the customer ID written in the “customer ID” column of the data storage area 111 of FIG. 9 as in the automatic meter reading patrol program 26 of FIG. By making a round, it may be transferred and resident in all main devices of the customer corresponding to the customer ID.
[0045]
Then, when the flowchart of FIG. 8 ends (S32: Yes), the process proceeds to S41 of FIG. 10, and the failure inspection program 31 transferred and resident in the main device starts monitoring the failure of the gas appliance. In FIG. 2, the failure inspection program 31 is transferred and resident in the memory 44 of the main device 41 of the client 18 in the house 13 of the customer A, and starts monitoring the failure of the gas appliance 56 such as a water heater. The following description of the flowchart of FIG. 10 is made for the client 18 in the house 13 of the customer A in FIG. 2 for convenience of explanation.
[0046]
Then, in order to monitor the failure of the gas equipment 56 by the failure inspection program 31, first, the failure inspection program 31 receives various information from the gas equipment 56 in S42 of FIG. For this purpose, the information may be received from the gas device information 45 stored in the memory 44 of the main device 41, the gas device information 57 stored in the memory 54 of the first connection device 51, or the first connection. Various types of information may be directly received from the gas equipment 56 via the device 51. Thereafter, in S43 of FIG. 10, it is determined whether or not there is a sign of failure of the gas appliance 56 based on various information of the gas appliance 56. Here, when it is determined that there is no sign of failure of the gas device 56 based on various information of the gas device 56 (S43: No), the process returns to S41 and the above-described processing is repeated.
[0047]
On the other hand, if it is determined that there is a sign of failure of the gas device 56 based on various information of the gas device 56 (S43: Yes), the process proceeds to S44, and a program for acquiring detailed data of the gas device 56 is executed. (Corresponding to the "second autonomous execution type program") from the center 11 (see FIG. 1) and make it resident. The transfer / resident location may be the memory 44 of the main device 41 or the memory 54 of the first connection device 51. Then, in S45, the detailed data of the gas equipment 56 is acquired by the program transferred and resident in S44, and the detailed data is transmitted to the center 11 (see FIG. 1), and the process proceeds to S46. In this regard, the detailed data includes, for example, a failure site number, a failure number, a tapping temperature, a hot water temperature, a sensor temperature, and the like when the gas appliance 56 is a water heater.
[0048]
Then, in S46, the center 11 (see FIG. 1) performs a failure diagnosis of the gas appliance 56 based on the detailed data. At this time, in the failure diagnosis of the gas equipment 56, the center 11 considers the accumulated past results and the like. Thereafter, in S47, when it is determined as a result of the failure diagnosis performed at the center 11 (see FIG. 1) that the gas appliance 56 is in failure, the parts and service personnel are prepared for the request of the customer A. I do. Specifically, as shown in FIG. 15, if the terminal devices 36 and 37 of the repair company or the sales company are connected to the Internet 12, the terminal devices 36 and 37 of the repair company or the sales company Data such as the model of the gas appliance 56 determined to be defective or a failed component (failure location) is transmitted.
[0049]
Then, in S48 of FIG. 10, the result of the failure diagnosis performed at the center 11 (see FIG. 1) is transmitted to the main device 41 and displayed on a monitor (not shown) of the main device 41. Next, in S49, the customer A is caused to determine whether there is a repair request on a monitor (not shown) of the main device 41. Here, in the case where a diagnosis result indicating that the gas equipment 56 is not at fault is transmitted / displayed in S48, the customer A usually does not need to repair the gas equipment 56, and the customer A does not want to repair the gas equipment 56. Is determined, and when such a determination is made (S49: No), the flowchart of FIG. 10 is ended. On the other hand, in the case where a diagnosis result indicating that the gas equipment 56 is out of order is transmitted or displayed in S48, the customer A usually needs to repair the gas equipment 56. If it is determined that there is, the process proceeds to S50 (S49: Yes), repairs are arranged, and the flowchart in FIG. 10 is ended. Specifically, as shown in FIG. 14, if a repair company 36 or a sales company 37 is connected to the Internet 12, data indicating that the repair is to be performed is stored in the terminal devices 36 and 37 of the repair company or the sales company. Is transmitted, the flow chart of FIG. 10 ends.
Note that, even when the flowchart of FIG. 10 ends, the processing of S41 to S43 of FIG. 10 is always executed. Further, the notification of the determination of the repair request by the customer A is made by input to the main device 41 (S49 in FIG. 10).
[0050]
Thus, the center 11 of the gas company shown in FIG. 1 transmits, via the failure inspection program 31, all the customers corresponding to the customer ID written in the “customer ID” column of the data storage area 111 in FIG. Automatic failure diagnosis of equipment can be performed. In particular, since the failure information is accumulated in the server 17 of the center 11 of the gas company in FIG. 1, it is possible to analyze the failure occurrence rate and contribute to early preventive measures.
[0051]
The failure inspection program 31 can be downloaded and rewritten by the server 17 of the gas company center 11 in FIG. 1, and the program transmitted in S44 of FIG. Since the revision can be made in the server 17, automatic failure diagnosis of the gas equipment can be supported without depending on the model and the manufacturer of the gas equipment.
[0052]
Next, an automatic leak inspection of a gas pipe system in a house of each customer of the gas company, which is performed in the communication system 1 of the present embodiment, will be described based on a flowchart of FIG. This automatic leak inspection is carried out semi-automatically by using, for example, the main device 41 of FIG. 2 for the legal leak inspection of the gas pipe system once every three years, which has been performed by the visitor of the inspector. Things. Note that the description of the flowchart in FIG. 11 is made for the client 18 in the house 13 of the customer A in FIG. 2 for convenience of description.
[0053]
First, in S61 of FIG. 11, the main device 41 starts a gas pipe system leak check. In this regard, as shown in FIG. 7, a program 32 (corresponding to an “autonomous execution type program”) for executing the flowchart of FIG. 11 is transmitted from the server 17 of the center 11 of the gas company to the main device 41 (FIG. ), But is written in the “customer ID” column of the data storage area (not shown) of the program 32 as in the automatic meter reading patrol program 26 of FIG. 1 described above. The customer IDs may be transferred and resident in all main devices of the customers corresponding to the customer IDs by circulating in the order of the customer IDs.
[0054]
Next, in S62 of FIG. 11, the main device 41 displays a piping route in the house 13 of the customer A on a monitor (not shown), thereby instructing a gas stopper or the like that must be manually closed by the customer A. Then, in S63, the customer A manually closes the gas tap instructed in S62, and at the same time, in S64, the main device 41 switches the first connection device 51 to use the gas equipment 56 connected to the client (LAN) 18. Stop automatically through. Thereafter, the process proceeds to S65, in which it is determined whether or not the gas pipe leakage check is ready. Here, when it is not determined that the preparation for the gas pipe system leakage inspection is completed (S65: No), the process proceeds to S71 described below, but when it is determined that the preparation for the gas pipe system leakage inspection is completed (S65: Yes). ), Proceeding to S66, after the gas meter 66 is automatically stopped by the main device 41 via the second connection device 61, the main device 41 inspects the gas pipe system for leakage.
[0055]
Then, in S67, the main device 41 checks the result of the inspection for gas pipe system leakage, and proceeds to S68. If it is determined that there is no gas pipe system leakage (S68: No), in S69, the main device 41 is checked. Automatically returns the gas appliance 56 via the first connection device 51, and the main device 41 automatically returns the gas meter 66 via the second connection device 61. Thereafter, in S70, the main device 41 displays the fact that there is no gas pipe system leakage and is safe on the monitor (not shown), informs the customer A, and transmits it to the center 11 (see FIG. 1).
[0056]
On the other hand, in S68, when it is determined that there is a gas pipe system leak (S68: No), the process proceeds to S71, and it is determined whether the determination that there is a gas pipe system leak is the second time. Here, when it is determined that there is a gas pipe system leak for the second time (S71: Yes), the process proceeds to S73, and the main device 41 does not show that there is a gas pipe system leak (not shown). The information is displayed on the monitor, transmitted to the customer A, and transmitted to the center 11 (see FIG. 1). On the other hand, if it is determined that there is no gas pipe system leakage for the second time (S72: No), the process proceeds to S72, and the customer A and the main device 41 are re-checked whether the gas stopper or the like is closed. After the confirmation, the process returns to S65, and the above-described processing is repeated to perform the gas pipe system leakage inspection again.
Note that the notification of the confirmation by the customer A is performed by input to the main device 41.
[0057]
Thus, the center 11 of the gas company in FIG. 1 can perform the automatic leak inspection of the gas pipe system in the house of each customer of the gas company via the program 32 for executing the flowchart in FIG. . If the automatic leak check is a legal leak check of the gas pipe system once every three years as described above, the latest program 32 for executing the flowchart of FIG. At the time of performing, it may be downloaded from the server 17 of the center 11 of the gas company in FIG. 1 and rewritten.
[0058]
Next, the energy consumption survey of each customer of the gas company performed in the communication system 1 of the present embodiment will be described based on the flowchart of FIG. By this energy consumption survey, it is possible to anticipate the needs of the customer, notify the information desired by the customer, and use the information for the safety of the customer. Note that the description of the flowchart in FIG. 12 is made for the client 18 in the house 13 of the customer A in FIG. 2 for convenience of description.
[0059]
First, in S81 of FIG. 12, the main device 41 starts monitoring the energy consumption survey. In this regard, as shown in FIG. 7, a program 33 (corresponding to an “autonomous execution program”) for executing the flowchart of FIG. 12 is transmitted from the server 17 of the center 11 of the gas company to the main device 41 (FIG. 2). 1), and is written in the “customer ID” column of the data storage area (not shown) of the program 33 as in the automatic meter reading patrol program 26 of FIG. 1 described above. The customer IDs may be transferred and resident in all main devices of the customers corresponding to the customer IDs by circulating in the order of the customer IDs.
[0060]
Next, in S82 of FIG. 12, the main device 41 distributes the data collection program to the first connection device 51 and the second connection device 61, and proceeds to S83 to determine whether the monitoring of the energy consumption survey has been completed. to decide. Here, when it is determined that the monitoring of the energy consumption survey has been completed (S83: Yes), the flow chart of FIG. 12 is terminated without doing anything, but it is determined that the monitoring of the energy consumption survey is not terminated. If so (S83: No), the process proceeds to S84, where the main device 41 receives the transmission data from the first connection device 51 and the second connection device 61. The transmission data is collected by the data collection program distributed in S82 described above, and is, for example, a gas usage amount by time series. Then, in S85, the main device 41 accumulates the transmission data from the first connection device 51 and the second connection device 61 in the memory 44, and at the timing when the transmission data becomes a certain amount, the main device 41 transmits the data. (See FIG. 1), and after the free space of the memory 44 is secured, the process returns to S83 to repeat the above-described processing.
[0061]
Thus, the center 11 of the gas company in FIG. 1 can conduct an energy consumption survey of each customer of the gas company via the program 32 for executing the flowchart in FIG. Then, the center 11 of the gas company shown in FIG. 1 can analyze the transmission data from each customer and provide the customer with information on efficient gas usage. Examples of information on efficient gas usage include, for example, a method of reducing gas usage fees, the nearest low-priced shop for customers using LPG gas, and the nearest for customers using city gas. There is information such as supply destination.
[0062]
The monitoring of the energy consumption survey is performed by a data collection program distributed to the first connection device 51 and the second connection device 61. This program is executed by the main device 41 and the center 11 of the gas company shown in FIG. Can be downloaded and rewritten by the server 17, thereby making it possible to change or add, for example, a change in the survey time, a survey by time zone, or a survey of a specific gas appliance.
[0063]
FIG. 13 is a monitor screen 121 of the center 11 of the gas company shown in FIG. 1. The monitor screen 121 includes an automatic meter reading result 122 for the gas meter in the house of each customer of the gas company, The result 123 of the automatic failure diagnosis of the gas equipment in the house of each customer of the company, the result 124 of the leak inspection of the gas pipe system in the house of each customer of the gas company, and the like are displayed.
[0064]
As described above in detail, in the communication system 1 according to the present embodiment having such features, as shown in FIG. The server 17 of the company center 11 transfers the data to the main device 41 of the client 18 in the house 13 of the customer A and executes the same. ., And are repeated to the customer C, the customer D,..., That is, at the end of the “customer ID” column of the data storage area 81 in FIG. Is transferred and executed in the main unit of the client of the customer corresponding to the customer ID written in the cell of the gas company, and finally, the server of the center 11 of the gas company. Since returning to 7, via the Internet 12, the customer A, B, C, D, ... of the client 18, 19, 20, 21, ... of the main unit 41, it is possible to cycle through ....
[0065]
At this time, in the client 18 of the customer A, the processing related to the gas meter 66 is performed by the main device 41 executing the automatic meter reading patrol program 26 as shown in the flowchart of FIG. Through the second connection device 61, it is possible to control a gas plug incorporated in the gas meter 66, obtain and process information on the gas meter 66, and further obtain information (such as a pointer value) on the gas meter 66. And processing information (eg, usage amount, gas usage fee) can be written to the data storage area 81 in FIG. This corresponds to the clients 18, 19, 20 of all the customers A, B, C, D,... Corresponding to the customer IDs written in the "customer ID" column of the data storage area 81 in FIG. , 21,...
[0066]
That is, in the communication system 1 of the present embodiment, the automatic meter reading patrol program 26 relating to the gas meter 66 transmits, via the Internet 12, the clients 18, 19, 20, 21, ..., of the customers A, B, C, D, ... Go back to the server 17 in the center 11 of the gas company, and the clients 18, 19 of the customers A, B, C, D,... As shown in the flowchart of FIG. , 20, 21,... Through the second connection device 61, and the gas meters 66 of the clients 18, 19, 20, 21,... Of the customers A, B, C, D,. .. Are acquired through the second connection device 61, and the information on the gas meters 66 of the clients 18, 19, 20, 21,... Of each customer A, B, C, D,. It can be collected in the server 17 of the company of the center 11. Therefore, by communication with the server 17 via the Internet 12, information collection and control on the gas meters 66 of the clients 18, 19, 20, 21,... Of each customer A, B, C, D,. By handling, it is possible to provide services that can sufficiently respond to the needs of diversifying customers A, B, C, D,... The load is distributed to the main devices 41,... Of the clients 18, 19, 20, 21,..., And the load on the server 17 of the center 11 of the gas company is reduced, so that the running cost can be reduced.
[0067]
Further, in the communication system 1 of the present embodiment, as shown in FIG. 7, programs 32 and 33 for executing the flowchart of FIG. 11 or FIG. 17 are transferred and resident at the clients 18, 18, 20, 21,... Of the customers A, B, C, D,. After that, in the clients 18, 19, 20, 21, ... of the customers A, B, C, D, ..., the programs 32, 33 for executing the flowchart of Fig. 11 or Fig. 12 are executed by the main devices 41, .... Is done. As a result, the processing (automatic leakage inspection of the gas pipe system, energy consumption investigation) relating to the gas equipment 56 or the gas meter 66 is performed, so that the main device 41 is connected via the first connection device 51 or the second connection device 61. , The use of the gas equipment 56 or the control of the gas tap built in the gas meter 66 and services such as automation and notification of gas leakage.
[0068]
That is, in the communication system 1 of the present invention, the programs 32 and 33 for executing the flowchart of FIG. 11 or 12 are transmitted from the server 17 of the center 11 of the gas company via the Internet 12 to each customer A, B, Are transferred and resident in the main devices 41,... Of the clients 18, 19, 20, 21,... Of the clients 18, 19, 20, 21,. , 19, 20, 21,... Are controlled via the first connection device 51 or the second connection device 61, and the clients of the customers A, B, C, D,. Information about the gas equipment 56 or the gas meter 66 of 18, 19, 20, 21,... Is acquired and processed via the first connection device 51 or the second connection device 61, and each customer A, B, C, ,... Can be collected in the server 17 of the center 11 of the gas company, whereby the gas device 56 or the gas meter 66 can be collected. And provide automation and services. Therefore, by communication with the server 17 via the Internet 12, information collection and control on the gas appliances 55 or the gas meters 66 of the clients 18, 19, 20, 21,... Of the customers A, B, C, D,. 12, it is possible to provide services that can sufficiently respond to the needs of diversifying customers A, B, C, D,... D,... Clients 18, 19, 20, 21,... Related to gas equipment 55 or gas meter 66 can be automated.
[0069]
Further, in the communication system 1 according to the present embodiment, as shown in FIG. 7, a failure inspection program 31 for communicating with the gas appliance 56 or the gas meter 66 is provided via the Internet 12 via the server 17 Are transferred and resident in the main devices 41,... Of the clients 18, 19, 20, 21,... Of the customers A, B, C, D,. After that, in the clients 18, 19, 20, 21,... Of the customers A, B, C, D,. As a result, if it is determined that a program for acquiring the detailed data of the gas appliance 56 is necessary (S43 in FIG. 10: Yes), the program for acquiring the detailed data of the gas appliance 56 is transmitted to the Internet 12. Are transferred / resident from the server 17 of the center 11 of the gas company to the clients 18, 19, 20, 21,... Of the customers A, B, C, D,. Is done. After that, in the clients 18, 19, 20, 21, ... of the customers A, B, C, D, ..., the programs for acquiring the detailed data of the gas equipment 56 are executed by the main devices 41, .... Thereby, services such as automation and repair arrangement are provided while controlling the gas equipment 56.
[0070]
That is, in the communication system 1 of the present invention, the failure inspection program 31 for communicating with the gas device 56 or the gas meter 66 is transmitted from the server 17 of the center 11 of the gas company via the Internet 12 to each of the customers A, B, and C. , D,... Are transferred / resident in the main devices 41,... Of the clients 18, 19, 20, 21,..., And in response to a request from the executed failure inspection program 31 (S43 in FIG. 10: Yes). , A program for acquiring detailed data of the gas equipment 56 is transmitted via the Internet 12 to the main clients 18, 19, 20, 21,... Of the customers A, B, C, D,. Are transferred and resident in the devices 41,..., And a program for acquiring detailed data of the gas equipment 56 is executed, whereby each customer A, B, C Controlling the gas appliances 56 or the gas meters 66 of the clients 18, 19, 20, 21,... Of the clients D,... Via the first connection device 51 or the second connection device 61, and for each customer A, B, C , D,... Information on the gas appliances 56 or gas meters 66 of the clients 18, 19, 20, 21,... Via the first connection device 51 or the second connection device 61, and processes the information. Information about the gas equipment 56 or the gas meter 66 of the clients 18, 19, 20, 21,... Of C, D,... And the processing information can be collected in the server 17 of the center 11 of the gas company. Alternatively, the gas meter 66 can be controlled and automation and services can be provided. Therefore, by communication with the server 17 via the Internet 12, information collection and control on the gas appliances 55 or the gas meters 66 of the clients 18, 19, 20, 21,... Of the customers A, B, C, D,. 12, it is possible to provide services that can sufficiently respond to the needs of diversifying customers A, B, C, D,... D,... Clients 18, 19, 20, 21,... Related to gas equipment 55 or gas meter 66 can be automated.
[0071]
If the communication system 1 according to the present embodiment is connected to the terminal devices 35, 36, and 37 of a financial institution, a repair company, and a sales company via the Internet 12, as shown in FIG. The information and processing information on the gas equipment 55 or the gas meter 66 of the clients 18, 19, 20, 21,... Of the customers A, B, C, D,. Since it can be provided to the terminal devices 35, 36, and 37 of the connected financial institution, repair company, and sales company, the clients 18, 19, 20, and so on of each customer A, B, C, D,. .., 21 can quickly respond to charge collection and maintenance of the gas appliance 55 or the gas meter 66.
[0072]
As described above, the processing contents in the communication system 1 of the present embodiment include the automatic meter reading of the gas meter 66, the automatic failure diagnosis of the gas equipment 56, the automatic leak inspection of the gas pipe system, and the energy consumption of the gas equipment 56. Although there are volume surveys and the like, in this regard, even if there is a change in these processing contents, it is possible to respond by renewing and rewriting a revised program from the server 17 of the center 11 of the gas company.
[0073]
Note that the present invention is not limited to the above-described embodiment, and various changes can be made without departing from the gist of the present invention.
For example, if the communication system 1 of the present embodiment is connected to the terminal device 38 of the security company via the Internet 12 as shown in FIG. 14, the clients of the customers A, B, C, D,. Signals of the sensors 71 (see FIG. 2) of 18, 19, 20, 21,... Are transmitted to the terminal device 38 of the security company, or from the result of the energy consumption survey acquired according to the flowchart of FIG. If there is a change in the life pattern of A, B, C, D,... And the user is worried about safety, a signal indicating the change is transmitted from the server 17 of the center 11 of the gas company to the terminal device 38 of the security company. By doing so, it is also possible to contribute to security measures for customers A, B, C, D,.
[0074]
Further, if the communication system 1 of the present embodiment is connected to the terminal device 39 of the provider via the Internet 12 as shown in FIG. 14, each customer A, B, C, D,. By using the customer ID, for example, at the time of automatic meter reading of the gas meter 66, it is also possible to collect and collect the usage fee of the provider.
[0075]
In addition, the server 17 of the center 11 of the gas company accumulates and analyzes the results of the energy consumption survey acquired according to the flowchart of FIG. 12, so that each of the customers A, B, C, D,. It is also possible to prepare and provide consumables, daily necessities and foods in advance.
[0076]
In the communication system 1 of the present embodiment, as shown in FIG. 2, the customer A has one gas appliance 56 and one gas meter 66 connected to the client 18, but there may be a plurality of gas appliances. In addition, information collection and control may be performed not only for the gas appliance 56 and the gas meter 66 but also for home electric appliances. Further, in addition to the gas usage fee, for example, a water usage fee or an electricity usage fee may be targeted.
[0077]
【The invention's effect】
In the communication system of the present invention, the patrol program related to the gas device obtains information about the gas device of each client via the connection device by returning to the server through the main device of each client via the Internet, Since information on gas devices of each client can be collected on the server, information collection on gas devices on the client side is handled via the Internet by communicating with the server via the Internet, thereby diversifying customer needs. Service can be provided, and the load is distributed to the main device of each client, and the load on the server is reduced, so that the running cost can be reduced.
[0078]
Also, in the communication system of the present invention, the autonomous execution type program relating to the gas device is transferred and resident in the main device of each client via the Internet, and the execution type program is executed to control the gas device. In addition to providing automation and services, by handling communication with the server side via the Internet and controlling the gas equipment on the client side via the Internet, it is sufficient to respond to diversifying customer needs. This makes it possible to provide a service that allows the client to perform operations related to the gas equipment of each client.
[0079]
Further, in the communication system of the present invention, the first autonomous execution type program for communicating with the gas device is transferred / resident in the main device of each client via the Internet, and the executed first autonomous execution type program is executed. In response to a request from the program, the second autonomous execution type program is transferred and resident on the main device of the client via the Internet, and the second autonomous execution type program is executed. Since control and automation and services are provided, communication with the server side via the Internet and handling of the gas equipment control on the client side via the Internet sufficiently respond to diversifying customer needs. Services that can be provided by It is possible to automate the business related to the scan unit.
[0080]
Further, in the communication system of the present invention, the information and processing information relating to the gas device of each client gathered in the server is at least one of a financial institution connected via the Internet, a repair company, and a sales company. Since the information is provided to the terminal device, it is possible to quickly respond to the fee collection and maintenance of the gas device of each client.
[Brief description of the drawings]
FIG. 1 is a diagram showing an outline of a communication system according to an embodiment of the present invention.
FIG. 2 is a diagram showing an outline of a client in a customer's house in a communication system according to an embodiment of the present invention.
FIG. 3 is a flowchart of an automatic meter reading performed in the communication system according to the embodiment of the present invention.
FIG. 4 is a diagram showing a data storage area of an automatic meter reading patrol program that patrols in the communication system according to the embodiment of the present invention.
FIG. 5 is a diagram showing a data storage area of an automatic meter reading patrol program that patrols in the communication system according to the embodiment of the present invention.
FIG. 6 is a diagram showing a table of a charge menu included in an automatic meter reading patrol program that patrols in the communication system according to the embodiment of the present invention.
FIG. 7 is a diagram showing an outline of a communication system according to an embodiment of the present invention.
FIG. 8 is a flowchart of an automatic failure diagnosis performed in the communication system according to the embodiment of the present invention.
FIG. 9 is a diagram showing a data storage area of a failure inspection program distributed in the communication system according to the embodiment of the present invention.
FIG. 10 is a flowchart of an automatic leak inspection of a gas pipe system performed in a communication system according to an embodiment of the present invention.
FIG. 11 is a flowchart of an automatic leak inspection of a gas pipe system performed in a communication system according to an embodiment of the present invention.
FIG. 12 is a flowchart of an energy consumption survey performed in the communication system according to the embodiment of the present invention.
FIG. 13 is an example of a display screen of a monitor of a center of a gas company in the communication system according to the embodiment of the present invention.
FIG. 14 is a diagram showing an outline of a communication system according to an embodiment of the present invention.
FIG. 15 is a schematic view of an automatic meter reading system of a conventional gas meter.
[Explanation of symbols]
1 Communication system
12 Internet
17 Server
18,19,20,21 Client
26 Automatic meter reading patrol program
31 Failure inspection program
35 Terminal equipment of financial institutions
36 Repair company terminal equipment
37 Terminal equipment of sales company
41 Main unit
51 First connection device
52 Second connection device
56 Gas equipment
66 Gas meter
81 Data storage area

Claims (6)

In a communication system having a server and each client connected to the server via the Internet,
Each client
A main device communicably connected to the server;
A connection device that allows the main device and the gas device to communicate with each other,
A traveling program transferred from the server to a predetermined client is configured by a data collection unit and a data storage area related to the gas device, and after collecting data related to the gas device in the main device of the client, a next client A communication system, wherein the server makes a round of each client and returns to the server by being transferred to the main device. The communication system according to claim 1, wherein
The communication system according to claim 1, wherein the data on the gas device is energy consumption or device properties of the gas device. In a communication system having a server and each client connected to the server via the Internet,
Each client
A main device communicably connected to the server;
A connection device that allows the main device and the gas device to communicate with each other,
A communication system, wherein an autonomous execution type program relating to the gas device is transferred and resident from the server to each client. In a communication system having a server and each client connected to the server via the Internet,
Each client
A main device communicably connected to the server;
A connection device that allows the main device and the gas device to communicate with each other,
After transferring and resident a first autonomous executable program for communicating with the gas device from the server to each client, a second autonomous executable program for controlling the gas device and providing automation and services A communication system, wherein a program is transferred / resident from a server to a client where the first autonomous executable program resides in response to a request from the first autonomous executable program. A communication system according to claim 3 or claim 4, wherein
At least one of abnormality detection / inspection of the gas device or gas tube system leakage detection / inspection, gas abnormal use detection / inspection, and gas supply abnormality detection / inspection is performed. system. A communication system according to any one of claims 1 to 5, wherein
A communication system, wherein at least information about the gas device is provided to at least one terminal device of a financial institution, a repair company, or a sales company connected via the Internet.

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