JP4881549B2 - Supply amount confirmation method - Google Patents

Description

  In the present invention, for example, the supply side determines the supply amount of supplies such as electricity, gas, and water supplied from the supply side of the power company, gas company, water bureau, etc. to the demand side based on the declaration from the demand side It is about how to do.

  Usually, electric power is supplied to a demand side such as a general household or a corporation by an electric power company through an electric wire. On the demand side, each has a power meter, and the power consumption is displayed cumulatively by this power meter. The accumulated power consumption is metered regularly (for example, every month) by a meter reader of the power company, and the amount of power consumed during the period is calculated. And the electric power company collects the electric power charge from the demand side according to the amount of power consumption.

  The same applies to gas and water. Gas companies and water departments supply gas and water to the demand side through gas pipes and water pipes, and meter readers regularly read gas meters and water meters. Therefore, the amount of gas consumed and the amount of water used during the period are converted into gas charges and water charges, and these charges are collected from the demand side.

  However, for the demand side in places that are not easily accessible by meter readers, such as in the back of mountains or remote islands, the customer himself / herself performs meter reading work, and the meter reading results are contacted by telephone. Or, you can make a self-assessment by mailing the completed form.

  In any case, however, with such a self-reporting meter reading method, the customer may declare an incorrect value without knowing which value to read, or the customer may intentionally report a low meter reading result. So-called fraudulent reporting is easily performed, and the reliability is poor. For this reason, for example, once a year, or once for 10 self-reports, although it is rarer than the usual case, an illegal report is also made by the meter reader visiting the actual site and reading the meter. And the accuracy of meter reading is improved.

  However, it is self-evident that the reading of the meter in a place with poor traffic not only places a great burden on the meter but also increases the cost for meter reading.

  In order to solve this, a power meter, a gas meter, and a water meter, which are measuring instruments, are connected to a communication infrastructure, and the meter reading data is transmitted to the power company, the gas company, and the communication infrastructure via the communication infrastructure. It is conceivable to transmit to a supply side such as a water station. Patent Document 1 discloses a technique for connecting a measuring instrument to a communication infrastructure and transmitting measurement data to the supply side via the communication infrastructure.

  If this technology is applied and meter reading data is transmitted from the measuring instrument to the supply side via the communication infrastructure, the meter reading operation is automatically performed, so that not only the meter reader is unnecessary. In addition, the reliability of meter reading data can be improved. However, it is unavoidable to newly establish a communication infrastructure in the mountains or in places such as remote islands because it is unavoidable to generate a large amount of money.

On the other hand, Patent Document 2 discloses a measuring instrument technology using an IC tag. In this technique, the measuring instrument stores meter reading data in an IC tag. The meter reading data stored in the IC tag is read by a meter reader using a dedicated reading device, thereby aiming to improve the efficiency of meter reading work by the meter reader. As described in Non-Patent Document 1, nowadays, mobile phones that are widely used are equipped with a reader / writer function that reads data written on IC tags and vice versa. Is possible. Therefore, it is conceivable that the consumer reads the meter reading data using a mobile phone equipped with such a reader / writer function and transmits the read meter reading data to the supply side. This also eliminates the need for a meter reader. Further, since the customer does not need to read the numerical value with his / her own eyes, there is no need to know which numerical value can be read, and the reliability of the meter reading data is improved. Furthermore, this method does not require a new communication infrastructure, and it is only necessary to provide an IC tag in the currently used measuring instrument, so that there is no great additional cost.
JP 2001-356025 A JP 2001-147144 A "Reader / writer for wireless tags becomes small and infiltrates mobile phone", NIKKEI ELECTRONICS 2003.11.24, page 57

  However, in this method, when the meter reading data is read from the IC tag using the mobile phone, the connection with the IC tag is once released, and thereafter, the operation of transmitting the meter reading data from the mobile phone to the supply side is performed. There is a need.

  Since the operation is discontinuous as described above, the meter reading data may be rewritten between reading the meter reading data and transmitting the meter reading data. In this case, there is a problem that illegal meter reading data is transmitted to the supply side.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a supply amount determination method capable of preventing rewriting of meter reading data while rationalizing meter reading work.

  In order to achieve the above object, the present invention takes the following measures.

That is, the invention of claim 1 is a method for determining the supply amount of a supply supplied from the supply side to the demand side based on a declaration from each demand side provided with a measuring device for managing the supply amount. smell Te, each meter includes a measuring means for measuring the feed rate, performs calculation using a predetermined calculation method and measurement result measured by the measuring means, by using the calculation result and the measurement result, the supply It is possible to create reporting data consisting of numerical values that do not seem to be related to the numerical value representing the quantity, to store the reporting data created by the creating means in memory, and to communicate with the outside And an IC tag for transmitting the data for reporting stored in the memory when there is a read request.

  On the other hand, on each demand side, a reading request is transmitted to the IC tag by using the portable terminal, and the reporting data transmitted from the IC tag in response to the reading request is received by the portable terminal. The supply amount is reported to the supply side by transmitting the reporting data from the supply side to the supply side.

On the supply side, a first solution corresponding to the calculation result and a second solution corresponding to the measurement result are obtained by performing reverse calculation of the predetermined calculation method on the reporting data, An operation according to a predetermined calculation method is performed using the second solution, and when the operation result matches the first solution, the second solution is determined as the supply amount.

Therefore, in the supply amount determination method according to the first aspect of the present invention, if the calculation result as described above does not match the first solution by taking the above-described means, the declared supply amount Is not a correct value, that is, it can be easily determined that rewriting has occurred.

According to a second aspect of the present invention, in the method of the first aspect of the present invention, the measuring device includes a supply management means for stopping the supply of the supply to the demand side when a predetermined date and time comes.

Therefore, in the supply amount determination method of the invention of claim 2 , by taking the above-mentioned means, when a supply period is determined in advance by a contract or the like, supply is not made beyond the supply period. Can do.

In the invention of claim 2 , the supply side further transmits a supply stop cancellation signal to the portable terminal that is the transmission source of the reporting data when the supply amount declared by the predetermined date and time is determined. . On the other hand, on the demand side, this supply stop cancellation signal is received by the portable terminal, and thereafter, the supply stop cancellation signal is transmitted from the portable terminal to the IC tag. In the measuring instrument, the IC tag receives the supply stop cancellation signal, inputs the received supply stop cancellation signal to the supply management means, and the supply management means determines in advance that the supply stop cancellation signal is input. Do not stop the supply of supplies to the demand side even when the date comes.

Therefore, in the supply amount determination method according to the second aspect of the present invention, even when the supply period is determined in advance by a contract or the like, the supply side continuously supplies the supply item by transmitting the correct reporting data to the supply side. You can continue to receive the supply.

  According to the present invention, it is possible to prevent writing meter reading data while rationalizing meter reading work.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram illustrating an example of a network configuration to which a supply amount determination method according to an embodiment of the present invention is applied.

  This method is a method of determining the supply amount of the supply supplied from the supply side to the demand side based on the declaration from each demand side, and is realized using the communication network 12 such as the Internet. . The communication network 12 includes a base station 14, a power supply management system 16 operated by a power company, a gas supply management system 18 operated by a gas company, and a water supply management system 20 operated by a water station. Is connected.

  Further, the base station 14 is configured to be able to communicate with a mobile terminal 11 such as a mobile phone held by the customer 10, and a communication network 12 is connected between the mobile terminal 11 and each of the supply management systems 16, 18, 20. It mediates data exchanges made via the Internet.

  The consumer 10 also includes a power meter 24, a gas meter 26, and a water meter 28, which are measuring instruments. Each of these meters 24, 26, 28 manages the supply amount of the supplies supplied from the supply side to the consumer 10. As an example, the configuration of the gas meter 26 will be described using the perspective view of FIG. 2 and the functional block diagram of FIG.

  The gas meter 26 applied to the embodiment of the present invention includes an inlet 30 that receives a gas supplied from a gas supply side such as a gas company, and an outlet 32 for supplying the gas to the customer 10. . A measuring unit 36 through which the gas flows connects the inlet 30 and the outlet 32. In addition, a flow sensor 38 that measures the flow rate of the gas flowing in the measuring unit 36 and generates a flow signal, a pressure sensor 40 that detects an abnormal drop in the gas supply pressure and generates a cutoff signal, and detects vibrations during an earthquake And a seismic device 42 for generating a detection signal.

  The flow rate signal from the flow rate sensor 38, the shut-off signal from the pressure sensor 40, and the detection signal from the seismic device 42 are sent to the controller 44, respectively.

  The controller 44 includes a management unit 35, a central control unit 43, an IC tag 45 including an antenna 50 and a nonvolatile memory 51, a battery 46, and a display unit 47. The battery 46 supplies driving power to the central control unit 43.

  In FIG. 3, the antenna 50 is shown close to the main body of the IC tag 45. However, since this may reduce the communication capability with the outside, as shown in FIG. 49 is preferable. By adopting such a configuration, a high communication function with the outside is realized.

  The management unit 35 outputs a supply stop signal to the central control unit 43 at a predetermined date and time determined by a contract between the customer and the supply side.

  The display lamp 53 blinks when the shutoff valve 48 is closed. Thereby, an inspector such as a gas company can grasp that the shutoff valve 48 is closed. The return button 52 is a button for opening the closed shutoff valve 48.

  The central control unit 43 acquires a flow rate signal sent from the flow rate sensor 38, a shut-off signal sent from the pressure sensor 40, and a detection signal sent from the seismic device 42, respectively. Then, the acquired signal is sent to the IC tag 45 and stored in the nonvolatile memory 51. At this time, when a shut-off signal or a detection signal is sent, a signal is sent to the shut-off valve 48, and the shut-off valve 48 is closed for ensuring safety to shut off the gas supply. In addition, when the supply stop signal is transmitted from the management unit 35, the central control unit 43 also sends a supply stop signal to the shutoff valve 48 to shut off the gas supply. When the supply stop cancellation signal is sent via the antenna 50, the central control unit 43 sends a supply stop signal to the shutoff valve 48 even if the supply stop signal is sent from the management unit 35. do not send.

  Further, the central control unit 43 grasps the supply amount of the supplied supply based on the flow rate signal, sends this supply amount signal to the IC tag 45, and stores it in the nonvolatile memory 51. Then, a calculation is performed based on the supply amount and a predetermined calculation method, and meter reading data for reporting is created using the calculation result and the supply amount, and is stored in the nonvolatile memory 51 of the IC tag 45. Write (power is required for this operation).

This calculation is performed in order to create meter reading data that is not rewritten illegally. For example, the calculation is performed as follows. For example, when the gas supply amount is 45.32 m ³ and the date is April 13, the calculation of adding 04.13 to 45.32 is performed, and 49.45 is obtained as the calculation result. Further, the meter reading data 49453522 is created by alternately connecting numbers 4945 obtained by multiplying the calculation result 49.45 by 100 and 4532 obtained by multiplying the supply amount 45.32 by 100 one by one.

As will be described later, the meter reading data stored in the nonvolatile memory 51 of the IC tag 45 in this way is once taken into the memory 13 by the portable terminal 11 of the customer 10 and then the gas supply management system via the base station 14. 18 is transmitted. Therefore, the meter reading data once taken may be rewritten by operating the mobile terminal 11, but the meter reading data obtained by performing such a calculation is a value that directly represents the supply amount itself. in order that has become nothing of relevance numerical value, as well as trying to rewrite to a lower value, without Sube to know how may rewrite of, is it possible to prevent unauthorized rewriting.

Even if rewriting is performed, the gas supply management system 18 that has received the meter reading data performs the reverse operation based on the meter reading data, and finds that the result is inconsistent. To be able to grasp. That is, the gas supply management system 18 obtains 4945 and 4532 from the meter reading data 4945352 and multiplies them by 1/100 to obtain two solutions, that is, 49.45 and 45.32. And since the date is April 13, 45.32 is obtained by subtracting 04.13 from the former solution 49.45. By confirming that this value is equal to the latter solution, it is possible to grasp that the meter reading data has not been rewritten and the correct supply amount 45.32 m ³ . Of course, the calculation method for creating meter reading data is not limited to the above.

  Although the power meter 24 and the water meter 28 handle different supplies (the gas meter 26 handles gas, the power meter handles power and the water meter 28 handles tap water), the basic configuration is the same. Therefore, description of these configurations is omitted.

  As shown in FIG. 4, the portable terminal 11 can communicate with the gas meter 26 side via the antenna 50, thereby reading the meter reading data stored in the nonvolatile memory 51 and transferring it to the gas supply management system 18. By transmitting, the supplied amount of gas, that is, its own consumption is reported.

  This report is made on the report day predetermined with the gas supply side, such as the last day of every month. That is, when the reporting date comes, the customer 10 operates the mobile terminal 11 of his / her own to transmit a reading request for meter reading data to the gas meter 26. This is performed, for example, by opening a Web page designated in advance and transmitting an identification number therefrom. This identification number may be assigned in advance by the gas supply management system 18 or may be the telephone number if the mobile terminal 11 is a mobile phone.

  The reading request from the portable terminal 11 is received by the antenna 50. Then, when the reading request is received by the antenna 50, the IC tag 45 transmits the meter reading data stored in the nonvolatile memory 51 to the reading request source mobile terminal 11 via the antenna 50. The portable terminal 11 receives the meter reading data transmitted in this way, and temporarily stores it in its own memory 13.

  Next, the customer 10 transmits the meter reading data stored in the memory 13 of the portable terminal 11 to the gas supply management system 18 via the base station 14. In order to perform this transmission, for example, a transmission request is made to the base station 14 by opening a Web page designated in advance and inputting an identification number therefrom. This identification number may be assigned in advance by the gas supply management system 18 or may be the telephone number if the mobile terminal 11 is a mobile phone.

  Upon receiving this transmission request, the base station 14 is in a state where it can mediate data exchange between the requesting mobile terminal 11 and the transmission request destination gas supply management system 18. Thereafter, when meter reading data is transmitted from the portable terminal 11, the transmitted meter reading data is transmitted from the base station 14 to the gas supply management system 18 via the communication network 12 together with the identification number of the portable terminal 11 that is the transmission source. I am trying to do it.

  In the gas supply management system 18, the customer 10 is identified from the transmitted identification number, and the reverse operation as described above is performed on the transmitted meter reading data, so that there is no contradiction in the result. It is determined that correct meter reading data has been transmitted, and the correct supply amount is grasped. On the other hand, if the results are inconsistent, it is determined that the meter reading data has been rewritten. In this case, the portable terminal 11 that is the transmission source of meter reading data is requested to retransmit meter reading data.

  Further, when the gas supply management system 18 determines that the meter reading data is correct, the gas supply management system 18 transmits a supply stop cancellation signal to the portable terminal 11 that is the transmission source of the meter reading data. When the mobile terminal 11 receives the supply stop release signal, the customer 10 transmits the supply stop release signal to the gas meter 26 by operating the mobile terminal 11.

  The transmitted supply stop cancellation signal is received by the antenna 50 and further input to the central control unit 43. When the supply stop cancellation signal is input in this way, the central control unit 43 prevents the supply stop signal from being sent to the shutoff valve 48 even when the supply stop signal is output from the management unit 35. . As a result, the gas is continuously supplied to the customer 10 that has transmitted the correct meter reading data, and the gas supply is stopped for the customer 10 that does not transmit the correct meter reading data by a predetermined date and time. Like to do.

  Next, the processing flow of the supply amount determination method according to the embodiment configured as described above will be described with reference to the flowcharts shown in FIGS. Here, a case where the gas supply amount is reported will be described as an example.

  First, when gas is supplied from the gas company to the customer 10, the flow rate is measured by the flow rate sensor 38, and a flow rate signal is output to the central control unit 43 (S1). Then, the central control unit 43 grasps the supply amount based on the flow rate signal, and the supply amount signal is sent to the IC tag 45 and written in the nonvolatile memory 51 (S2).

  Further, a calculation is performed based on this supply amount and a predetermined calculation method, and meter reading data for reporting is created using this calculation result and this supply amount, and the nonvolatile memory 51 of the IC tag 45 is used. (S3).

  Then, for example, when a predetermined declaration date such as the last day of every month is reached, the consumer transmits a reading request for meter reading data to the gas meter 26 by operating his / her mobile terminal 11 (S4). This is performed, for example, by opening a Web page designated in advance and transmitting an identification number therefrom. This identification number may be assigned in advance by the gas supply management system 18 or may be the telephone number if the mobile terminal 11 is a mobile phone.

  When the reading request made in step S <b> 4 is received by the antenna 50, the meter reading data stored in the nonvolatile memory 51 is transmitted to the reading request source mobile terminal 11 via the antenna 50. The meter reading data transmitted in this way is received by the portable terminal 11 that is the reading request source, and is temporarily stored in the memory of the portable terminal 11 (S5).

  Next, the consumer transmits the meter reading data stored in the portable terminal 11 to the gas supply management system 18 via the base station 14 (S6). In order to perform this transmission, for example, a transmission request is made to the base station 14 by opening a Web page designated in advance and inputting an identification number therefrom. This identification number may be assigned in advance by the gas supply management system 18 or may be the telephone number if the mobile terminal 11 is a mobile phone. Upon receiving this transmission request, the base station 14 is in a state where it can mediate data exchange between the requesting mobile terminal 11 and the transmission request destination gas supply management system 18.

  The meter reading data transmitted in step S6 is sent from the base station 14 to the gas supply management system 18 via the communication network 12 together with the identification number of the transmission source portable terminal 11, and the gas supply management system 18 transmits this data. The customer 10 is identified from the identified identification number (S7). Further, the reverse calculation as described above is performed on the transmitted meter reading data (S8).

  If there is no contradiction as a result of the reverse operation (S9: No), it is determined that correct meter reading data has been transmitted, and the supply amount obtained by the reverse operation is determined to be a correct value ( S10). In this case, a supply stop cancellation signal is transmitted from the gas supply management system 18 to the transmission source portable terminal 11 (S11). And the consumer 10 will transmit a supply stop cancellation | release signal toward the gas meter 26 by operating this portable terminal 11, if the portable terminal 11 receives this supply stop cancellation | release signal (S12).

  The supply stop cancellation signal transmitted in step S <b> 12 is received by the antenna 50 and further input to the central control unit 43. When the supply stop cancellation signal is input to the central control unit 43 in this manner, even if the supply stop signal is output from the management unit 35, the supply stop signal is not sent to the shutoff valve 48. Accordingly, the gas is continuously supplied to the customer 10 who has transmitted the correct meter reading data in the next period (S13).

  On the other hand, if there is a contradiction in the result of the reverse calculation in step S8 (S9: Yes), it is determined that the meter reading data has been rewritten (S14). In this case, the gas supply management system 18 requests the portable terminal 11 that has transmitted the meter reading data to retransmit the meter reading data (S15).

  In this case, the process after step S4 is performed again. Thus, even if the processing after step S4 is performed again, if there is a contradiction in the result of the inverse calculation in step S8, as a result, the gas supply management system 18 sends a message to the mobile terminal 11 that is the transmission source. Since the supply stop cancellation signal is not transmitted, when the supply stop signal is output from the management unit 35 to the central control unit 43, the central control unit 43 closes the shutoff valve 48 and the gas supply is stopped. Stopped.

  In this manner, the measurement value reporting process in a certain period is completed. In the next period, the same reporting process as described above is performed.

  As described above, in the supply amount determination method according to the embodiment, the customer 10 itself transmits meter reading data to each supply management system by the operation as described above, so that each supply side Can reduce meter reading staff.

  The meter reading data transmission process can be performed by using the portable terminal 11 provided with the IC tag 45 in the measuring instruments 24, 26, and 28 and the function of writing to the IC tag 45 and the function of reading from the IC tag 45. . Since this type of mobile terminal 11 can be a widely used mobile phone, it can be implemented immediately without making new capital investment.

  Furthermore, the supply amount determination method according to the embodiment is not performed by transmitting numerical data relating to the supply amount measured by the weighing devices 24, 26, and 28 to the portable terminal 11 as it is, and performs a predetermined calculation. The meter reading data created by applying the seed scramble is transmitted to the portable terminal 11. On the supply management system 16, 18, 20 side, the supply amount can be grasped by performing an inverse operation on the meter reading data.

  Therefore, in the unlikely event that the meter reading data is rewritten, a contradiction occurs in the result of the reverse operation, so that it is possible to easily determine whether or not the meter reading data is illegal.

  Furthermore, when correct meter reading data is not transmitted to the supply management system 16, 18, 20 side by a predetermined date, the supply of supplies to the customer 10 can be stopped, and thus the customer Even when the meter reading data declaration is outsourced to the meter 10, meter reading data can be reliably collected.

  The best mode for carrying out the present invention has been described above with reference to the accompanying drawings, but the present invention is not limited to such a configuration. Within the scope of the invented technical idea of the scope of claims, a person skilled in the art can conceive of various changes and modifications. The technical scope of the present invention is also applicable to these changes and modifications. It is understood that it belongs to.

The figure which shows an example of the network structure to which the supply amount confirmation method which concerns on embodiment of this invention is applied. The perspective view which shows an example of a gas meter. The block diagram which shows the function structural example of the gas meter applied to the supply amount prior setting method which concerns on embodiment of this invention. The figure which shows the concept of the data transmission / reception method between a gas meter and a terminal. The front view which shows an example of the gas meter by which the printed antenna was embedded inside the display. The flowchart which shows the flow of a process of the supply amount determination method which concerns on the embodiment (the 1). The flowchart (the 2) which shows the flow of a process of the supply amount confirmation method which concerns on the same embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Consumer, 11 ... Portable terminal, 12 ... Communication network, 13 ... Memory, 14 ... Base station, 16 ... Power supply management system, 18 ... Gas supply management system, 20 ... Water supply management system, 24 ... Electricity meter, 26 ... Gas meter, 28 ... Water meter, 30 ... Inlet, 32 ... Outlet, 35 ... Management part, 36 ... Measuring part, 38 ... Flow rate sensor, 40 ... Pressure sensor, 42 ... Seismic device, 43 ... Central control part, 44 ... Controller, 45 ... IC tag, 46 ... Battery, 47 ... Display unit, 48 ... Shut-off valve, 49 ... Display, 50 ... Antenna, 51 ... Non-volatile memory, 52 ... Return button, 53 ... Indicator lamp

Claims (2)

The supply amount of feed that is supplied to the demand side from the supply side, Te method odor to determine on the basis of a measuring device for managing the supply amount to the declaration from each demand side with each
Each measuring instrument performs a calculation using a measurement unit that measures the supply amount, a measurement result measured by the measurement unit and a predetermined calculation method, and using the calculation result and the measurement result, Creating means for creating reporting data consisting of a numerical value that does not seem to be related to the numerical value representing the supply amount; storing the reporting data created by the creating means in a memory; communicating with the outside; And an IC tag for transmitting the data for reporting stored in the memory when there is a reading request,
In each demand side, the reading request is transmitted to the IC tag using a portable terminal, and the reporting data transmitted from the IC tag in response to the reading request is received by the portable terminal. Declaring the supply amount to the supply side by transmitting the reporting data from the mobile terminal to the supply side,
On the supply side, a first solution corresponding to the calculation result and a second solution corresponding to the measurement result are obtained by performing an inverse operation of the predetermined calculation method on the reporting data. And performing an operation according to the predetermined calculation method using the second solution, and when the operation result matches the first solution, the second solution is A method of determining the supply amount . The method of claim 1, wherein
The measuring instrument comprises supply management means for stopping supply of the supply to the demand side when a predetermined date and time comes,
When the supply side confirms the declared supply amount before the predetermined date and time, a supply stop cancellation signal is transmitted to the portable terminal that is the transmission source of the reporting data,
On the demand side, the supply stop cancellation signal is received at the portable terminal, and then the supply stop cancellation signal is transmitted from the portable terminal to the IC tag,
In the measuring instrument, the IC tag receives the supply stop cancellation signal, inputs the received supply stop cancellation signal to the supply management means, and the supply management means receives the supply stop cancellation signal. And a method for preventing the supply of the supply to the demand side from being stopped even at the predetermined date and time .

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