KR20010011082A - Building Meters Internet Checking Method - Google Patents

Abstract

PURPOSE: An internet gauge examination method of various building gauges is provided to receive and process a lot of gauge data in sequence in a short time on the basis of intrinsic numbers of users by using internet. CONSTITUTION: An internet gauge examination method of various building gauges includes the steps of adding and storing a pulse signal input from a gauge(1) via an interrupt port to a gauge examination microcomputer(4) and returning to a stop mode for minimizing current, storing a one-month added value with an assigned time at the assigned gauge examination time, setting a transmission starting time of each gauge and automatically transmitting a predetermined gauge examination data to an internet server in sequence, repeatedly carrying out the transmission by three times if any reception message is not received from the internet server, and arranging and storing the received data in the database according to the intrinsic gauge number by a host server computer(8) while automatically transmitting an error message to a server computer of a gauge examination microcomputer company with relation to a gauge of which gauge data is not received, wherein time of the gauge examination microcomputer and the server computer are set equally.

Description

Metering Internet Checking Method of Building Meters

The present invention relates to an Internet meter reading method for transmitting data to an Internet server of a supplier via the Internet at a designated time by installing a microcomputer and a modem in various building meters.

There have been a variety of methods and devices for meter reading in conventional buildings, i.e., water, electricity, gas meters and calorimeters. Among them, there are the following types of remote metering devices and methods that can receive data from the meter from a central central metering computer using a telephone line.

① Published Patent Publication No. 92-21972; Install pulse counter and CPU in the meter. The CPU makes the CPU available as an interrupt signal or as an SIO clock depending on the CTC that divides or counts the clock, and the watchdog prevents malfunction. The I / O data of the SIO communicates with the outside through a communication unit or a modem through the CPU selector. An integrated circuit for a remote meter reading terminal.

② Korean Patent Publication No. 92-11185; Comprising a home service unit for integrating the meter value and transmitting it over the telephone line, distribution control according to the line control adapter and the control unit that controls it, and the module control unit and the line between the communication interface control unit and the line centralization control unit on the host side Put test equipment. The system status between each processor module is mutually monitored and notified to the upper processor, and receives and retains information on the lower processor as unique information, and transmits the unique information only to the corresponding processor module in case of system failure.

③ Korean Patent Publication No. 90-2054; A small computer of a specific circuit equipped with an analog switch, reading control logic, tone detector, call line detector, call generator, dial pulse generator, and matching device is provided with a timer device and connected to the customer's meter reading computer. It is an unmanned reading transmission device for a consumer meter using a telephone line that installs a data signal receiver and transmits a data signal through a telephone line without going through an exchange according to the function of a small computer, so that it can be checked and managed by a supplier's meter reading computer.

However, in the above-mentioned invention, in the case of ①, it relates to an integrated circuit for a metering terminal for the purpose of preventing errors in counting by separating the pulse input part and the pulse counting part separately from the meter. There is no concept of internet transmission between computers, and because it does not have a meter unique number and a data transmission concept of time unit according to this number, there is no system of which order and unit time to read the number of consumers. As a result, the end-of-month reading of many consumers cannot be aggregated and processed at about the same time.

In addition, in the case of ②, there is a problem. In this case, an expensive exchanger for exchanging a telephone receiver connected to the main distribution frame must be separately installed, and even if a line centralization control unit is installed, the meter has tens of thousands of customers because of its characteristics. When the unidirectional data transmission method is used in the meter reading instrument, the line centralization control unit cannot afford it.

In the case of ③, the customer's small computer reading the meter reading value makes a call at a preset time and sends a data signal to the supplier's computer through the matching device. Since there is only a direct telephone line through a telephone station between computers, there is only an exchange. As in the case of ①, there is a problem in that there is no concept of internet transmission, so that the monthly end readings of a large number of consumers cannot be systematically aggregated and processed almost simultaneously.

The common method of the meter reading method is that the provider computer that performs the meter reading automatically makes a call from the meter side to the provider side of the past method of calling each meter using a wired or wireless public communication network.

In this case, the problem is the customer's recognition method based on the data transmission time and the telephone number. The purpose of sending and receiving meter reading data remotely was to reduce the error in meter reading time due to the rate system that the metering staff does not have to check the meter of the customer side and settles at the end of the month. If you connect the computer directly to the supplier's computer, it will take a long time for the meter to be able to get the monthly end of the meter value quickly. And when the customer is recognized by the phone number, there is a problem that the data must be modified every time the phone number is changed.

An object of the present invention is to transmit data from a customer side to a supplier's computer with a unique number irrelevant to a telephone number, and also to transmit data at different times based on the unique number of the customer while using the Internet in the transmission method. Therefore, it is to provide a meter reading method that can receive the calculation of the end-of-month metering accumulated value of a large number of consumers in order to quickly process.

1 is a block diagram showing the overall configuration of the system of the present invention.

2 is a block diagram showing the Internet meter reading terminal in more detail.

3 is a communication flow diagram of the present invention.

Figure 4 is a block diagram showing the output form and the metering data processing path for counting the metering status of the water meter in the server computer.

Figure 5 is a status sheet for the bedding furniture in the output form for counting the meter reading status of the water meter in the server computer.

Figure 6 is a status sheet for the completed meter reading in the output form for counting the meter reading status of the water meter in the server computer.

Figure 7 is a status sheet for the non-readable furniture in the output form for counting the reading status of the water meter in the server computer.

The present invention is metered in the following way to achieve the above object.

1. If no pulse signal comes from the meter, the meter microcomputer (MPU) minimizes the current in the stop mode. When the pulse enters through the interrupt port of the meter microcomputer, it wakes up, accumulates, saves it, and enters the stop mode again.

2. When the meter reading time (24 hours at the end of each month) is specified in the real time clock (RTC), the meter reading microcomputer stores the total value of the meter in the memory with the specified time.

3. From 0 o'clock on the 1st of every month, the meter reading microcomputer sets the value of multiplying the number of 10,000 units among the unique numbers of the customer by the predetermined transmission free time (in seconds) as the starting point of transmission of each meter. Predetermined meter data including the meter unique number and the meter reading value (1 month integrated value) stored at the meter reading time is automatically transmitted to the Internet server in sequence through a modem.

4. The meter reading microcomputer transmits its turn and sends data at regular intervals up to 3 times if there is no response from the server computer.

5. When the server computer receives the data in the order of the meter's unique number from the meter microcomputer, the address of the customer stored in the database and the received meter value are sorted together as the meter's unique number and stored again in the database. The unique number is treated as an error and sorted separately, and then automatically sent to the server computer of the meter microcomputer A / S company.

6. When the meter microcomputer transmits data, the server computer informs the meter microcomputer of its time so that the meter microcomputer and the server computer are always set to the same time.

Hereinafter, with reference to the accompanying drawings will be described in more detail.

First, according to the block diagram of Fig. 1 showing the overall configuration of the system for realizing the present invention, in the Internet meter reading terminal, the pulses counted by the water meter 1 and the gas meter 2 are embedded in the microcomputer (CPU) 4 The real time clock (RTC) 5 sends the real time to the reading microcomputer 4. The data of the meter reading microcomputer 4 is transmitted to the internet area by the modem 6. In the Internet meter reading center, data transmitted through the Internet is stored in the host (server) computer 8 through the modem 7 and processed into a PC 9 to print 10 a bill of payment if necessary.

2 shows the Internet meter reading terminal in more detail. A photo sensor or a reed switch is used as a sensor for detecting a flow rate of a meter, that is, a water meter, an electric meter, a gas meter, a calorimeter, or the like as a pulse value. In Figure 2 is based on the photosensor, the structure of the reed switch next to it separately illustrated.

When the rotation of the meter is sensed by the photosensor 11, a black mark is attached to a point on the upper surface of the rotating plate 12 of the meter, and a photosensor 11 having a light receiving portion and a light emitting portion is provided at a position where the mark is adjacent. Even though the rotating plate 12 coated with black marks has a maximum amount of water or gas, the rotating plate 12 and 12a normally take about 5 seconds to rotate one meter, so that the meter reading microcomputer 4 is in the stop mode normally. By waking up every second and turning on the photo sensor 11 by 2m / s-in order to minimize current consumption-by sensing through the reflected light of black and white, the number of rotations is calculated, integrated and stored in the memory.

When the sensor is used as a reed switch contact method, a magnet is attached to the rotating plate 12a of the meter so that the reed switch 11a is connected by the magnetic force when making one revolution, and the flow rate is read as a pulse value, and the pulse value is read by a micrometer (4). ) To continue integration. At this time, the metering microcomputer 4 minimizes the current in the stop mode. When the pulse enters through the interrupt port of the metering microcomputer 4, it wakes up, accumulates, and enters the stop mode again. Therefore, current consumption is minimized.

When the time designated by the real time clock 5, i.e., at the end of the month, is 24 hours, the integrated value of the meter reading microcomputer 4 is stored in the memory of the meter reading microcomputer 4 together with the designated time. Then, the meter reading microcomputer 4 makes a phone call through the modem 6 from 0 o'clock on the 1st of every month and sequentially sends meter reading data to the server (host) computer 8 of the supplier via the Internet. The meter reading data includes the meter's unique number, the meter reading time (at the end of each month, 24 hours), and the meter reading.

The method of sending meter reading data in order by the meter reading microcomputer 4 uses a unique number of a meter. Use up to 10,000 meter identification numbers. The number given to 10,000 units of the meter's unique number is multiplied by about 30 seconds. This number is the transmission start time set in one meter microcomputer 4. In this manner, the transmission start time is set in all the reading microcomputers 4.

For example, if one of the meter identification number is 721,567, it is 1,567 x 30 seconds. The result is 17,010 seconds. The transmission to the server computer 8 on the supplier's side that the meter reading microcomputer 4 is to read data is sent 17,010 seconds after the initial transmission start time at 0 o'clock on the first day of every month. Therefore, the server computer 8 can receive data from the meter reading microcomputer 4 in a sequence without congestion at once.

The meter reader microcomputer 4 cannot transmit data when the user is talking on the telephone (internet meter terminal) or the communication line is abnormal. Assuming this, when the reading microcomputer 4 transmits in its own turn, if the server computer 8 does not receive a response, it sends data at regular intervals up to three times.

When the server computer 8 receives the data in the order of the meter unique number from the meter microcomputer 4, the address of the customer and the received meter value stored in the database are put together as the meter unique number and stored in the database again. As described above, the unique number of the meter that does not substantially transmit or receive data to the server computer 8 at a given time is treated as an error, and is separately arranged and automatically transmitted to a server computer (not shown) of the meter microcomputer A / S company. When the meter reading microcomputer 4 transmits data from above, the server computer 8 informs the metering microcomputer 4 of its own time so that the metering microcomputer 4 and the server computer 8 are always set to the same time.

3 shows the flow of communication between the meter reading microcomputer 4 on the customer side (Internet meter reading terminal) and the server computer 8 on the supplier side (Internet meter reading center). The contents of the transmission / reception data (reading data) are the unique number of the meter, the meter reading month, the meter reading total value (1 month total value) and the date of meter reading. When the meter microcomputer 4 makes a phone call and makes a meter reading data transmission notification, the server computer 8 sends a response signal ACK. The metering microcomputer 4 then sends metering data and the server computer 8 sends a response signal. The server computer 8 finally checks whether there are other requirements from the meter reading microcomputer 4 and sends a completion signal to the meter reading microcomputer 4. Then, the meter reading data from the meter reading microcomputer 4 is analyzed, and if the real time of the meter reading microcomputer 4 does not match, a signal is sent to adjust the time, and at the same time, the data that does not match is signaled and corrected. After this is done communication is complete.

Fig. 4 is a block diagram showing an output form and metering data processing path for counting the metering status of the water meter in the server computer 8; In this case, the output form is to read the meter reading month, the total number of households scheduled to be read, the number of current meter reading complete households, the current meter reading rate, the number of households that can not be read, and the metering data is output for each bedding household, meter reading complete household and non-reading households. In Figure 4, the meter reading data, that is, the unique number of the meter, the subscriber's address and name of the customer, the amount of usage and the like for the completed meter reading is output. The meter reading status is that the meter reading data (meter unique number, meter reading time, meter reading value) received from the modem 7 is read by the host (server) computer 8 (reading meter unique number, usage), meter reading furniture data (subscriber) It is calculated and output with address and name) and meter completion data (instrument unique number, subscriber address and name, usage, and bill issuance).

FIG. 5 shows a current state sheet of a bedbed furniture in an output form for counting the meter reading status of the water meter in the server computer 8. This is the case when you clicked the selection box that says 'Black Bed Furniture' on the screen.

FIG. 6 shows a current state sheet of a meter-ready furniture in the output form for counting the metering status of the water meter in the server computer 8. This is the case when you click the selection box that says 'Reading completed furniture' on the screen.

FIG. 7 shows a current state sheet for non-readable households in an output form in which the metering status of the water meter in the server computer 8 is aggregated. This is the case when you click on the selection box that says 'Unreadable furniture' on the screen. In this case, the non-readable furniture appears when the meter microcomputer 4 transmits at a predetermined interval up to three times at a predetermined time, but there is no reception response from the server computer 8, and the processed data for such non-readable furniture is After the error is processed in the server computer 8, it is automatically transmitted to the server computer (not shown) of the meter microcomputer A / S company.

Since the data is sent from the customer side to the provider's computer with a unique number irrelevant to the telephone number, there is no problem of resetting the phone number whenever there is a change in the phone number. By transmitting the data at different times based on the differentiation, it is possible to rapidly receive and process the end-of-month metering accumulated value of a large number of consumers.

Claims (1)

(1) If the pulse signal does not come from the meter, the reading microcomputer (CPU) minimizes the current in the stop mode, but when the pulse enters through the interrupt port of the reading microcomputer, it wakes up, accumulates, and enters the stop mode again. (2) When the meter reading time (24 hours at the end of each month) is specified in the real time clock (RTC), the meter reading microcomputer stores the total value of the meter in the memory with the specified time. (3) From 0 o'clock on the 1st of every month, the meter reading microcomputer sets the value of the unit's unique number by multiplying the number of 10,000 units by the predetermined transmission free time (in seconds) as the starting point of transmission of each meter. Predetermined meter data including the meter unique number and the meter reading value (1 month integrated value) stored at the meter reading time are automatically transmitted to the Internet server in sequence through a modem. (4) The meter reading microcomputer transmits it in its turn. If there is no response from the server computer, it sends data up to three times at regular intervals. (5) When the server computer receives the data in the order of the meter unique number from the meter microcomputer, the address of the customer stored in the database and the received meter value are arranged together with the meter unique number and stored in the database again. The unique number of the meter is treated as an error and sorted separately, and then automatically sent to the server computer of the meter microcomputer A / S company. (6) When the meter microcomputer transmits data, the server computer informs the meter microcomputer of its own time so that the meter microcomputer and the server computer are always set to the same time. Internet meter reading method of various building meters, characterized in that consisting of the steps (1) to (6) above.