KR102203929B1 - A mounting type terminal for remote gas-meter reading - Google Patents

Abstract

The present invention relates to a mounted remote meter reading terminal that is mounted on a non-remote meter reading type mechanical meter that accounts for most of the gas meters currently installed in Korea to enable remote meter reading. More particularly, the present invention relates to a mounted remote meter reading terminal mounted on a mechanical gas meter to enable remote meter reading, which comprises: (A) a pulse input unit for receiving a pulse signal from a pulse output terminal of the meter; (B) a camera unit for photographing the indicator of the meter; (C) a storage unit for temporarily storing information of the pulse input unit and the camera unit; (D) a communication unit for transmitting the information stored in the storage unit to a remote server according to an instruction of a control unit; (E) a power supply unit; and (F) the control unit for controlling the operation of each component.

Description

A mounting type terminal for remote gas-meter reading}

The present invention relates to a remote meter reading terminal mounted on a non-remote meter reading type mechanical meter, which occupies most of the currently installed gas meters in Korea, to enable remote meter reading.

In 2018, the national average supply rate of city gas in Korea was 84%, with the number of households used reaching 17.8 million units, and city gas supply almost peaked. Technically, gas meters were expected to develop as they moved from the existing mechanical type to remote meter reading, and then to a digital meter and then to a multifunctional meter (a meter equipped with a safety device that performs gas safety functions such as an abnormal flow cutoff and gas leakage cutoff device). Is not reaching this point.

Looking at the installation status of gas meters for city gas meter reading (end of 2016), it is true that the mechanical type is 96%, the digital meter capable of remote meter reading is 2%, and the multifunctional meter is 2%. to be. [There are a number of prior technologies for digital meters installed directly on the gas pipe line (registered patents 10-1568806, 10-1635631, etc.).]

Therefore, most of the city gas metering and meter reading-related tasks are still carried out by a meter reader periodically visiting households and checking the meter index values. Of course, there is a method of receiving metering information by text from the user, but it is only auxiliary. As the meter reading and inspection method dependent on the manpower is maintained as it is, there are direct damages such as waste of manpower and time, and social risks such as invasion of privacy and secondary crimes are concerned because outsiders (meter readers) must enter the living space of the household. have. As reflecting this, complaints related to meter reading, safety, and fees are repeated year by year.

As one of the measures to foster the new energy industry, the government invested 500 billion won in the gas AMI field, and replaced 16 million existing mechanical meters with remote meter reading meters (hereinafter referred to as'digital meters'). It has announced a roadmap to implement a nationwide smart grid to the field. The government's plan was accompanied by the goal of resolving related complaints through the advancement of the gas field's remote meter reading system, improving quality up to meter reading and safety inspection, and strengthening the competitiveness of related businesses such as metering and IT. According to this, 3.2 million mechanical meters per year need to be replaced with digital meters, but the results of the promotion were very slight.

It is judged that the failure to replace the meter is due to the following factors.

First, the high price of digital meters is a stumbling block. Even if a certain portion of the subsidy is received from the government or city gas supplier upon replacement, the user does not have a desire to replace the meter while paying additional costs for what was used without a big problem. Second, since it is a replacement of the meter on the gas pipe line, it is not a simple task, but a'construction', so cost, time, and psychological burden are large. Assuming that the price and construction cost of the digital meter is 100,000 won each, and that 9 million units, which is about 50% of the existing mechanical meter, are replaced, social costs of 1.8 trillion won or more will be required.

Accordingly, a communication terminal for remote meter reading has been proposed that has a remote communication function and is connected to the pulse output terminal of an existing mechanical meter to store the accumulated measurement value and transmit it to the server at predetermined intervals (Fig. 1). Reference). However, according to this, remote meter reading is possible, but as the index click of the mechanical meter and the error of the pulse output to the communication terminal accumulate, the accuracy gradually decreases, and an external deliberate or unintentional shock (e.g., disconnection of the pulse output terminal) , There is a problem such as the possibility that an error may occur in the information transmitted to the communication terminal due to the approach of strong magnetic force. Therefore, in this case, it is essential to visit the household directly at predetermined time intervals to correct the difference (error) between the mechanical meter and the communication terminal.

Registered Patent 10-1568806 Registered Patent 10-1635631

An object of the present invention is to provide a mounted remote meter reading terminal capable of remote meter reading without replacing a mechanical gas meter.

Another object of the present invention is to provide a mounted remote meter reading terminal capable of automatically or manually correcting the index information of a mechanical gas meter and the pulse information entering the terminal even if there is an error.

The present invention for achieving the above object is, in a mounted remote meter reading terminal that is mounted on a mechanical gas meter to enable remote meter reading,

(A) a pulse input unit receiving a pulse signal from the pulse output terminal of the meter; (B) a camera unit for photographing the guide unit of the meter; (C) a storage unit for temporarily storing information of the pulse input unit and the camera unit; (D) a communication unit for transmitting the information stored in the storage unit to a server at a remote location according to the instruction of the following control unit; (E) power supply; And (F) a control unit for controlling the operation of each of the components; characterized in that the mounted remote meter reading terminal comprising a.

As described above, according to the present invention, remote meter reading is possible only by simply installing the existing mechanical meter as it is, so that the cost and time of replacing the mechanical meter with a digital meter can be saved.

In addition, according to the present invention, it is possible to remotely check whether there is an error between the index information of the mechanical gas meter and the pulse information entering the terminal, and correct this remotely. Therefore, according to the present invention, the conventional mechanical gas meter can function as a complete digital meter for remote meter reading without replacing it.

In addition, according to the present invention, since the information of the meter is double-stored by crossing the main memory built in the main body and the detachable sub-memory, even if the terminal is discharged or broken, the sub-memory is separated to easily check the stored information on a mobile phone or PC I can.

1 is a remote meter reading communication terminal according to the prior art.
2 is a conceptual configuration diagram of a remote meter reading terminal according to the present invention.
3A and 3B are conceptual front and side views, respectively, of a remote meter reading terminal according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. However, the accompanying drawings are only examples for easily explaining the content and scope of the technical idea of the present invention, and thus the technical scope of the present invention is not limited or changed. It will be obvious to those skilled in the art that various modifications and changes are possible within the scope of the technical idea of the present invention based on these examples.

As described above, the present invention relates to a mounted remote meter reading terminal mounted on a mechanical gas meter to enable remote meter reading, and includes a pulse input unit, a camera unit, a storage unit, a communication unit, a power supply unit, and a control unit (Figs. 2 and 3a, 3b). In the example of Figs. 3a and 3b, the components other than the camera unit are built into the'body' and are easily fixed to the gas pipe, and between the pulse input unit and the pulse output terminal of the gas meter, the main body and the camera unit are connected by connecting lines. Is presented.

The mechanical gas meter increases the number of the guide part (the part where the number is displayed) each time the gas flows through the unit, and at the same time generates a pulse (ex. Have. The pulse input unit is a constituent unit connected to a pulse output terminal of a meter and receiving a pulse signal therefrom.

The camera unit photographs and images the guide unit of the meter. Since information is transmitted between the meter and the terminal according to the present invention by pulses, an error may occur between the actual flow rate (the number indicated on the instruction sheet) and the flow rate recognized by the terminal (the flow rate calculated by the pulse signal) as time elapses. . Therefore, the information acquired by the camera unit (image information or text information to be described later) is transmitted to the server at regular intervals so that the meter reader does not have to visit the site in order to check this.

On the other hand, if the camera of the camera part is installed apart from the indicator part of the meter, it is weak against the impact in the process of use and if it is attached in close contact with the surface of the guide part, it is weak against the shock. There is discomfort. In order to prevent such inconvenience, the present invention proposes a method of fixing and attaching a triangular prism to the surface of the guide part. That is, one side of the triangular prism is mounted in contact with the guide portion of the meter, and the camera is mounted on the surface of one of the two exposed sides of the triangular prism or embedded in it. An example in which a prism is mounted in FIGS. 3A and 3B is shown. In this way, the'meter-prism-camera' is reliably fixed in close contact and is not damaged by external force, while the remaining exposed side (the side inclined from top to bottom in the drawing) allows the meter reader to easily see the number of the indicator with the naked eye. There will be.

The information of the pulse input unit and information of the camera unit thus obtained are temporarily stored in the storage unit . That is, in the storage unit, the number of pulses transmitted through the pulse input unit from a predetermined point in time is accumulated and accumulated. At this time, information on the timing of the accumulation of the pulses may be stored together. In addition, the guide unit information obtained by the camera unit is also stored in the storage unit together with the acquisition time information.

The communication unit is a configuration unit that transmits information stored in the storage unit to a server at a remote location according to an instruction of the control unit. Specifically, as the communication unit, Cat M1 or NB-IoT, which is a more advanced network in terms of battery life and data transmission efficiency than a large-capacity IoT network technology, may be applied, but is not limited thereto.

The control unit controls the operation of each component of the terminal according to the present invention. For example, the control unit controls the communication unit to transmit pulse information and/or instruction unit information stored in the storage unit to a remote server according to a predetermined program. In some cases, if there is no ACK signal when there is a problem that the server is down due to the circumstances of the communication company, it can wait until the next server is communicated, and then transmit the information at once.

In the present invention, the camera unit or the control unit has a function of recognizing and digitizing the number of the photographed reference unit of the meter, and at this time, the control unit includes a pulse accumulation value stored in the storage unit and a recognized number increase value of the reference unit By comparison, when a predetermined or more error occurs, the communication unit may transmit an alarm signal to a remote server. Accordingly, in the remote server, an error between the actual flow rate by the guide unit and the flow rate by the pulse signal recognized by the terminal can be automatically or manually corrected.

The power supply unit supplies power for the operation of the terminal according to the present invention. In the present invention, since a low-power communication device is applied to the communication unit, a lithium primary battery may be used as the power supply unit, but the present invention is not limited thereto. Further, in the present invention, it is also preferable to add an auxiliary battery to the power supply, and an example of its use will be described later.

In addition, the terminal of the present invention may have an LED, LCD or LED and LCD for displaying the status and information of the terminal at the same time, or may additionally have a display unit having a speaker. In this case, the control unit further has a function of detecting the status information of the terminal according to the present invention and displaying it on the display unit.

Thereby, for example, when the capacity of the power supply unit falls below a predetermined value, when there is an overpulse phenomenon, a predetermined visual or audible alarm can be displayed.

Meanwhile, in the terminal according to the present invention, data may be lost due to external shock (surge) or battery discharge. In order to prevent such data loss, several supplementary measures can be applied.

First, in the present invention, the storage unit is composed of a main memory built into the main body and a detachable sub-memory (for example, an SD card), and allows information to be stored in the main memory and the sub-memory at a predetermined interval. That is, the data duplication method can be applied. For example, information to be stored (information of the pulse input unit and information of the camera unit) is alternately stored at 1-minute intervals, once in the main memory and once in the sub memory. Accordingly, even if the main memory is damaged or discharged and does not operate, the sub-memory (eg, SD card) can be removed and information can be checked immediately on the mobile phone or PC. This cross-storage method also has the effect of reducing the possibility of potential data loss due to memory write/read.

In another way, as described above, even if the main battery is discharged by placing the auxiliary battery in the power supply unit, when the meter reader presses the switch, the auxiliary battery supplies emergency power so that the stored last pulse value or the converted flow rate value can be displayed on the LCD.

On the other hand, conventional multi-function meters (terminals) are integrated with or attached to a household mechanical gas meter, so when the meter is replaced, an inconvenient situation occurs such as replacement or removal and reattachment. Furthermore, it is difficult to apply a multifunctional meter (terminal) of one company to a gas meter of another company because the terminal and the gas meter must have a structural correspondence.

The present invention has the advantage that it is possible to mount a remote meter reading terminal on a pipe in order to solve the problems of the prior art, so that it is not necessary to attach or detach even when the meter is replaced, and it can be used continuously until a failure.

The remote meter reading terminal according to the present invention as described above can remotely read the meter without visiting the site by simply mounting it on the mechanical gas meter that still occupies most, and can correct the accuracy of the meter reading remotely, and if necessary, the visual meter reading of the meter reader It has the advantage of making it possible.

Claims (5)

In the mounted remote meter reading terminal mounted on a mechanical gas meter to enable remote meter reading,
(A) a pulse input unit receiving a pulse signal from the pulse output terminal of the meter;
(B) a camera unit that is spaced apart or in close contact with the guide unit of the meter to photograph the guide unit;
(C) a storage unit for temporarily storing information of the pulse input unit and the camera unit;
(D) a communication unit for transmitting the information stored in the storage unit to a server at a remote location according to the instruction of the following control unit;
(E) power supply; And
(F) a control unit for controlling the operation of each of the components; includes,
The camera unit or the control unit has a function of recognizing and digitizing the number of the photographed indicator of the meter,
The control unit is characterized in that by comparing the accumulated pulse value for a predetermined period stored in the storage unit and the number increase value of the recognized instruction unit to cause the communication unit to transmit an alarm signal to a remote server when a predetermined error occurs. Mounted remote meter reading terminal.
The method according to claim 1,
The storage unit,
It consists of the main memory built into the body and the detachable sub memory.
The mounted remote meter reading terminal, characterized in that the information is stored in the main memory and the sub-memory at a predetermined interval.
delete The method according to claim 1 or 2,
The camera unit,
A triangular prism mounted with one side in contact with the guide portion of the meter,
A mounted remote meter reading terminal comprising a camera mounted on the surface of one of the two exposed sides of the triangular prism or embedded and mounted.
The method according to claim 1 or 2,
(G) A mounted remote meter reading terminal, characterized in that it further has a display unit made of an LED or LCD or speaker that displays the status and information of the terminal.

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