KR19980019339A - Remote meter reading method - Google Patents

Abstract

The pin of the permanent magnet 3 is inserted into the binary data corresponding to the counterpart 2 of the number plate 1, and the Hall elements d1, d2, d3 are located at the same position relative to the position of the number (2). The array D becomes a Hall element by the pins of the permanent magnets 3 fixed by the binary data as the swivel plate 1 rotates with the flow of the flow by installing the array D to be matched. The digitalized signal of (D) is sent by the timer 4 to the central control panel at regular intervals through the processor, and checks the abnormality of the individual system and corrects the function of the temperature.

Description

Remote meter reading method

In today's increasingly sophisticated and automated society, flow meters such as electricity, city gas, and water supply are installed for each customer, and people spend a lot of time reading and inspecting them. As a result, technology development for the remote meter reading method is being carried out not only in developed countries but also in Korea.

That is, in the conventional type of conventional meter, the power meter is displayed by rotating only mechanically according to the amount of power consumed, and in the flow agent such as gas or water supply, the rotor blade rotates according to the flow rate and rotates the counter. According to the decimal system, for example, the counter is from 1KW to 10KW, 100KW, 1000KW and from 1L to 10,100, l000t in urban gas, and from 1t to 10,100,1000t in water meter. Of course, the quantity below it is also displayed separately. Therefore, the above-mentioned weighing machine is installed for each customer, and it is a method of visiting and checking one by one, causing a lot of manpower and time consumption.

In view of the above, the present invention implements an electronic detection method while maintaining the structure of a conventional mechanical counter in order to realize low power consumption. It is to provide a way for data not to be lost by fire or natural disaster. In order to solve this problem, the present invention generally converts a continuous physical change amount into an electrical signal in an automatic weighing system and electronically accumulates it. In the present invention, a mechanical counter state is detected only when measurement is required while maintaining a conventional mechanical structure. By doing so, there is almost no battery consumption and the mechanical counter is maintained even in case of breakage so that the data is maintained.

In addition, in the present invention, it is possible to perform a calibration operation for a function such as temperature, so that in the case of gas weighing, volume conversion is possible and is programmed to be remotely sensed and adjusted when an abnormality occurs in the system.

1 is a perspective view of a number plate of a meter counter for explaining the present invention.

2 is an explanatory diagram of the arrangement of the binary data of the permanent magnet pins according to the displayed numbers in FIG.

3 is an explanatory diagram of a Hall element that is a numeric sensor

4 is a schematic diagram of the electrical circuit configuration

* Explanation of Signs of Important Parts of Drawings

1: Number plate 2: Number display

3: Permanent magnet pin dl, d2, d3, d4: Hall element

4: Timer 5: Processor

6: Port for communication with external data 7: Numeric detector

8: Means temperature sensor, B means battery, D means Hall element array.

The present invention will be described in detail with reference to the accompanying drawings, the configuration for solving the problems of the invention as described above as follows.

1 is an explanatory diagram of a conventional counter for explaining the present invention. It is known that the numbers 2 to 0 are displayed on the surface of the counter plate 1 of the counter. Under the number 2 as described above, as shown in FIG. 2, the permanent magnet pin 3 is inserted into binary data corresponding to the number. In addition, an array (D) comprising hall elements (dl, d2, d3, d4) as shown in FIG. 3 so that the number plate (1) rotates to match the same position relative to the position of the number (2). (array) is installed.

Of course, the array (D) consisting of the number plate (1) and the Hall elements (dl, d2, d3, d4) as described above is installed for each unit by the decimal method, and the binary number system and magnetic force are detected by an electrical signal. It is supposed to be digitalized.

In addition, the digitized signal output of the array D composed of the hall elements dl, d2, d3, and d4 is the same as the counter detection output of the counter detection element 7 of the electrical circuit shown in FIG. It is connected to be input to the processor (5) which is a CPU driven by. Such a signal is detected through the Hall element array of the current flow rate once or once a day according to the instruction of the interrupt timer IC 4, and the data is transmitted to the main controller via wired or wirelessly through the external DATA communication port (6). To send.

Therefore, as the number plate (1) rotates by flow in the flow rate, the pins made of permanent magnets (3) arranged by binary data corresponding to the number (2) also rotate together, so that they are matched to the same position relatively. The digitized output of the provided array elements (dl, d2, d3, d4) is sent to the processor 5. In other words, when there is a magnetic field of the permanent magnet 3 orthogonal to the current Vcc flowing in the array D as the hall element, the binary data of FIG. The current numeric display is digitalized and output, and the signal is sent to the processor 5. The current usage can be transmitted to the central station through the data communication port arbitrarily once or a day by the instruction of the timer 4. will be. In addition, the processor 5 can perform a calibration operation in accordance with a function such as temperature according to the signal of the temperature detecting sensor 8.

As described above, according to the present invention, the flow rate is normally counted by the mechanical structure alone, and the processor is interrupted by a timer once a month or once a day to detect the current flow rate through the hall element array and wire the main controller. Alternatively, it can be transmitted wirelessly, and the central control panel can request data reception at the connection meter of individual customer about once a day, collect data and check whether there is any abnormality of individual system, and make corrections for functions such as ambient temperature. In the case of gas metering, the volumetric volume is possible, and when an abnormality occurs, the program can be programmed to be remotely sensed and adjusted.

In addition, since the present invention is a sensing system using magnetic force, the present invention is strong against external electromagnetic noise, and has a feature of operating more stably than optical detection or electrical detection even when flooded with water.

The present invention relates to a remote meter reading method of the meter, and in particular, by mounting a pin (Pin) made of permanent magnets for each number in the counter (counter) consisting only of numbers, the magnetic detection hole to match the same position relative to the position of the above The present invention relates to a digital signal detected by positioning an effect element so as to be transmitted to a central control station by wireless or wired through an external data communication port.

Claims (2)

In counting the meter, the permanent magnet pin is inserted into the binary data corresponding to the number in only the number of the mechanical counter, and an array consisting of hall elements at the same position is relatively matched with the position of the permanent magnet pin. And the array is digitally detected and detected by a binary number system. According to claim 1, the digitized signal of an array of hall elements is sent to the main controller by wire or wirelessly using a port for external data communication by driving the processor once a day or monthly by an instruction of an interrupter IC which is a timer. Remote metering method of the meter, characterized in that.