WO2015190625A1 - Automatic meter reader having wireless communication function and temperature and pressure compensation function - Google Patents

Abstract

Disclosed is an automatic meter reader having a wireless communication function and a temperature and pressure compensation function, which can improve efficiency of data management and data transmission and enhance reliability of power management. The automatic meter reader comprises: a temperature/pressure measuring unit for receiving signals of the detected temperature/pressure of gas in a gas pipe to calculate a temperature value and a pressure value of the gas; a gas flow measuring unit for receiving signals of the detected volume of the gas provided into the gas pipe to calculate a volume value of the gas; a gas volume converting unit for compensating the volume value according to the temperature value and the pressure value of the gas to calculate a compensated gas volume value; a data management unit for storing the compensated gas volume value; and a wireless communication unit for wirelessly transmitting the compensated gas volume value calculated by the gas volume converting unit, or the compensated gas volume value stored in the data management unit.

Description

Automatic meter reading device with wireless communication function and temperature correction function

The present invention relates to an automatic meter reading device having a wireless communication function and a temperature correction function, and more particularly, after measuring the volume of the city gas, etc., the error of the gas volume measured according to the temperature and the pressure is wirelessly managed. An automatic meter reading device having a wireless communication function and a temperature correction function that can be transmitted to a server or the like.

Currently, Korea's city gas supply system imports natural gas (LNG) as a raw material from Korea Gas Corporation alone, and supplies it to the city gas companies located in each region under high pressure. Each city gas company that is supplied reduces the pressure of high-pressure city gas, which is a city gas, which is supplied to each demand price through its own supply chain.

Since in the Korea Gas Corporation high-pressure gas supplied to each region company gaseous state because larger variations in volume due to the temperature or pressure, a metered amount when calculating the supply amount of the high-pressure gas 0 ^o C, 1 atmospheric pressure (1,013 mbar Calculated based on).

The city gas company makes a supply contract with each customer and sets the supply pressure specified in the supply contract to the pressure regulator so that a pressure higher than the supply pressure from atmospheric pressure is supplied to the customer. At this time, the gas passing through the meter of the consumer is changed in density from time to time by the influence of temperature and atmospheric pressure around the meter, but only the volume is measured regardless of the density. In such a supply amount calculation method, a difference depending on temperature and pressure inevitably occurs.

In this way, the city gas changes the volume of the gas, which is the actual metering fluid, from time to time depending on the ambient temperature and pressure from the gas factory of the city gas company to the customer. It is necessary to calculate the exact amount of use by correcting the factor to the value measured by the meter. Specifically, the city gas changes by about 0.36% in volume at 1 ° C., and changes in volume by about 0.98% at 10 mbar in pressure. Since the temperature and pressure affecting the gas volume change frequently according to the weather and the altitude above sea level, the gas volume change, which is a function of these two variables, also occurs frequently.

Despite the properties of these city gases, all meters currently in use can only measure the volume of gas. That is, when the same amount of gas is flowed into the same gas meter, the amount of use displayed on the gas meter is different according to the ambient temperature and pressure of the meter.

Therefore, in order to accurately measure the city gas, a device temperature pressure compensator is required to measure the temperature, pressure, and volume of the gas supplied to the customer in real time and convert the volume into a reference state (0 ° C., 1 atm).

The present invention is to solve the problem to provide an automatic meter reading device having a wireless communication function and a temperature correction function that can reconsider the efficiency of data management and data transmission, and improve the reliability of power management.

The present invention to solve the above technical problem,

A temperature / pressure measuring unit configured to receive a signal detecting the temperature / pressure of the gas in the gas pipe and calculate a temperature value and a pressure value of the gas;

A gas gas flow rate measuring unit configured to receive a signal detecting the volume of the gas provided into the gas pipe and calculate a volume value of the gas;

A gas volume converting unit configured to calculate the corrected gas volume value by correcting the volume value according to the temperature value and the pressure value of the gas;

A data manager which stores the corrected gas volume value; And

A wireless communication unit for wirelessly transmitting the corrected gas volume value calculated in the gas volume conversion unit or the corrected gas volume value stored in the data management unit.

It provides an automatic meter reading device having a wireless communication function and a temperature correction function comprising a.

In one embodiment of the present invention, the data management unit, a data index list that records the number of the plurality of corrected gas volume values and the link data number measured in the time information and the time information at which the corrected gas volume value is calculated as an index ; And a measurement data list linked to each index of the data index list and storing a plurality of corrected gas volume value data measured in the viewpoint information according to the link data number.

In one embodiment of the present invention, when a corrected gas volume value data request of a specific date is received through the wireless communication unit, the data manager retrieves an index having viewpoint information corresponding to the specific date in the data index list. And, the corrected gas volume value data of the measurement data list linked to the searched index may be provided to the wireless communication unit.

One embodiment of the present invention, the external power input unit to which power is input from the outside; A backup battery that provides power when the external power inputted from the external power input unit is lowered or cut off below a predetermined reference; And a power management unit configured to monitor external power input from the external power input unit, control the operation of a backup battery, and distribute power of the external power and the backup battery.

In one embodiment of the present invention, the power management unit, when the backup battery is operated because the external power inputted from the external power input unit is lowered or cut below a predetermined reference, and notifies the wireless communication unit of the power state change. The wireless communication unit may transmit a power state change message.

In one embodiment of the present invention, the power management unit may cut off the power provided to the wireless communication unit after the wireless communication unit transmits a power state change message.

In one embodiment of the present invention, the wireless communication unit receives an on-pressure correction coefficient calculation factor for calculating the corrected gas volume value wirelessly from an external management server, and receives the received on-pressure correction coefficient calculation factor from the gas. It can be delivered to the volume conversion unit.

In one embodiment of the present invention, the gas volume conversion unit calculates the corrected gas volume value by updating the on-pressure correction coefficient calculation factor received from the wireless communication unit at a preset reservation time according to time information provided by the wireless communication unit. can do.

According to the present invention, a data index list which records the reference date of the calculated gas volume conversion value data storage, the number of data and the number of links of the plurality of measurement data lists linked to the reference date, and the plurality of gases linked to the data index list By separating and storing the measurement data list in which the converted value data is recorded, there is an effect of significantly reducing the data storage amount as compared with the conventional method of simultaneously storing the time information at which the gas converted value is calculated and the data measured at the time. In addition, through such a data storage method, a data index list can be searched to find an index of a reference date to which the corresponding day belongs, and only a link corresponding to the index can be read, thereby significantly reducing data transmission amount.

In addition, according to the present invention, the power volume management function, even if the power supplied from the outside is reduced or cut off smoothly can maintain the gas volume conversion function for a long time, in particular, the wireless communication that the power state problem occurs By sending it to the management server immediately, it is possible to make a quick action on the external power off.

In addition, according to the present invention, since the correction factor calculation factors in the plurality of automatic meter reading devices can be updated at the same time by using the wireless communication function, there is an effect of ensuring the equity of the charge according to the gas usage.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the installation state of the automatic meter reading apparatus which has a wireless communication function and a temperature-pressure correction function which concerns on one Embodiment of this invention.

2 is a block diagram of an automatic meter reading apparatus having a wireless communication function and a temperature correction function according to an embodiment of the present invention.

3 is a diagram showing a data storage structure of a data management unit of an automatic meter reading apparatus having a wireless communication function and a temperature correction function according to an embodiment of the present invention.

4 is a flowchart illustrating the operation of a power management unit of an automatic meter reading apparatus having a wireless communication function and a temperature correction function according to an embodiment of the invention.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiment of this invention is provided in order to demonstrate this invention more completely to the person skilled in the art to which this invention belongs. In addition, in the description of the present invention, terms defined are defined in consideration of functions in the present invention, which may vary according to the intention or convention of those skilled in the art, and thus limit the technical components of the present invention. It should not be understood as meaning.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the installation state of the automatic meter reading apparatus which has a wireless communication function and a temperature-pressure correction function which concerns on one Embodiment of this invention.

As shown in FIG. 1, the automatic meter reading apparatus 10 having a wireless communication function and a temperature correction function according to an embodiment of the present invention may be installed in the middle of a pipe 20 in which city gas is provided. The automatic meter reading apparatus 10 according to the embodiment of the present invention includes a pressure signal, a temperature signal, and a pressure signal detected by the pressure detector 30, the temperature detector 40, and the volume detector 50 provided in the city gas pipe 20, respectively. After receiving the volume signal, the volume of the city gas passed through the pipe can be corrected according to the gas pressure and temperature, and then wirelessly corrected city gas volume data can be transmitted to the management server through a wireless communication network.

2 is a block diagram of an automatic meter reading apparatus having a wireless communication function and a temperature correction function according to an embodiment of the present invention.

Referring to FIG. 2, the automatic meter reading device 10 having a wireless communication function and a temperature pressure correction function according to an embodiment of the present invention includes a temperature / pressure measuring unit 11, a gas flow rate measuring unit 12, and a gas volume. It may be configured to include a conversion unit 13, a data management unit 14 and a wireless communication unit 15.

In addition, the automatic meter reading device 10 having a wireless communication function and a temperature correction function according to an embodiment of the present invention includes an external power input unit 16, a backup battery 17, and a power management unit (elements for power management). 18) may be configured to further include.

The temperature / pressure measuring unit 11 is a gas temperature from a temperature detector (40 in Fig. 1) for detecting the temperature of the gas in the pipe installed in the city gas pipe and the like and a pressure detector (30 in Fig. 1) for detecting the pressure of the gas in the pipe. And a gas temperature value and a gas pressure value that can be calculated by the gas volume converting unit 13 by receiving the temperature detection signal T and the pressure detection signal Pr having detected the pressure. For example, the temperature / pressure measuring unit 11 receives the temperature detection signal T and the pressure detection signal Pr and calculates an actual gas temperature value and a gas pressure value of an analog value corresponding thereto, and calculates the gas volume. The conversion unit 13 may convert the digital value to be calculated and output the converted digital value.

The gas flow rate measuring unit 12 receives a gas volume signal LF from a volume detecting unit (50 in FIG. 1) that detects a gas flow rate of a pipe installed in a city gas pipe or the like, that is, a gas volume, thereby converting a gas volume converting unit 13. Can calculate the gas volume value that can be calculated. For example, the gas flow rate measuring unit 11 receives a gas volume signal LF, calculates an actual gas volume value of an analog value corresponding thereto, and converts the gas volume signal LF into a digital value that can be calculated by the gas volume converting unit 13. Can be output.

The gas volume converting unit 13 receives the gas temperature value and the gas pressure value from the temperature / pressure measuring unit 11, and receives the gas volume value from the gas flow rate measuring unit 12, thereby allowing the gas according to the temperature and the pressure. Volume conversions can be generated. That is, the gas volume conversion unit 13 may generate the converted gas volume conversion value as a function of the deviation of the gas temperature, the gas pressure and the ideal gas law. For example, the gas volume conversion unit 13 may generate a gas volume conversion value such as KS B 8300 which is a KS standard gas volume conversion device. The gas volume conversion may be performed by calculating a correction factor by using a preset temperature correction factor calculation factor. In order to accurately convert the gas volume, it is necessary to change the temperature correction factor calculation factor according to the change in calorific value of the supplied gas. The method of calculating the warming pressure correction coefficient by applying the warming correction coefficient calculating factor is well known in the art as a technical standard, and thus a detailed description thereof will be omitted. Since the function of converting the gas volume in accordance with the temperature and pressure is usually expressed by the term of the pressure correction, the description of the present invention will be used in combination with the term "gas volume conversion" and the term "temperature pressure correction".

* The data management unit 14 may store the gas volume conversion value calculated by the gas volume conversion unit 13 for each date and time. In one embodiment of the invention, the data management unit 14 includes a data index list that records the reference date and the number of stored gas volume conversion values from the reference date, and the gas volume conversion value data linked to each reference date in the data index list. It may include a list of measurement data recorded.

3 is a diagram showing a data storage structure of a data management unit of an automatic meter reading apparatus having a wireless communication function and a temperature correction function according to an embodiment of the present invention.

As shown in FIG. 3, the data management unit of the automatic meter reading apparatus having a wireless communication function and a temperature correction function according to an embodiment of the present invention includes two data index lists 61 and a measurement data list 62. You can save data as a list.

The data index list 61 may record the reference date of data storage and the number of data and the number of links of the measurement data list linked to the reference date. 3 illustrates an example in which a reference date is determined and stored in units of 10 days. In FIG. 3, the first row of the data index list 61, that is, the first index, has 240 gas volume conversion values stored from that day on January 1, 2012 and is included in the measured data list 62. Linked gas volume conversion data is 240. Similarly, the second row of the data index list 61 has 240 gas volume conversion values stored from that date on January 11, 2012 and linked to the measurement data list 62. It shows 240 data. In the example shown in FIG. 3, the gas volume conversion data measured every hour from one reference day to the day immediately before the next reference date may be linked to the reference date index and stored in the measurement data list 62.

As such, the data index list 61 serves as an index for the gas volume converted value data stored in the measurement data list 62, and according to the reference date stored in the data index list 61 and the number of data and the number of links accordingly, Gas volume conversion data of the measurement data list 62 may be linked to each index.

The wireless communication unit 15 may transmit the gas volume conversion value calculated in real time in the gas volume conversion unit 13 or the gas volume conversion value data stored in the data management unit 14 to the management server through wireless communication. The wireless communication unit 15 may include a communication state management unit 151 and a wireless communication module 152.

The communication state management unit 151 may read the gas volume conversion value or the stored gas volume conversion value data calculated in real time from the gas volume conversion unit 13 or the data management unit 14, and transfer the data to the wireless communication module 152. . In addition, the communication state manager 151 may control the wireless communication module 152 according to the power state information provided by the power manager 18 to be described later to adjust the period of data transmission through wireless communication.

In addition, the communication state manager 151 may check the data transmission state by the wireless communication module 152 for each transmission period to determine the cause of a preset step by step when a transmission failure occurs. For example, the communication state manager 151 may check a received signal strength indicator (RSSI) to check the reception sensitivity of the RF signal received by the wireless communication module 152. In addition, the communication state manager 151 may check the call connection state of the wireless communication module 152, and may check whether the data is received and the call completion state. The communication state manager 151 may repeatedly perform data retransmission by performing such a check process and controlling the wireless communication module 152 for data transmission, and normal data transmission is not performed even if the data retransmission attempt is performed a preset number of times. If not, the wireless communication module 152 may be reset.

The wireless communication module 152 may enable wireless communication by modulating and transferring the data to the antenna 19 so as to transmit the real-time gas conversion value or the stored gas conversion value data in a preset wireless communication scheme. For example, the wireless communication module 152 may be a WCDMA modem for WCDMA wireless communication. In addition, the wireless communication module 152 may wirelessly receive a request for data transmission and transmit it to the communication state manager 151, and the communication state manager 151 reads the requested data from the data manager 14. By transmitting back to the wireless communication module 152, the requested data can be transmitted wirelessly.

The external power input unit 16 is an element that receives external commercial power. In addition, when the backup battery 17 is not provided with an external power source due to a disturbance such as disconnection or power failure, the power required for the automatic meter reading device 10 having a wireless communication function and a temperature correction function according to an embodiment of the present invention. It is an element to provide.

The power management unit 18 may receive power from the external power input unit 16 and the backup battery 17 to efficiently provide power to each element of the automatic meter reading apparatus 10. For example, when the power input is cut off from the external power input unit 16, the power manager 18 may control to start the operation of the backup battery 17. In addition, when an error occurs in the external power input and the operation of the backup battery 17 is started, the power management unit 18 communicates with the management server to wirelessly notify the management server that an error has occurred in the power state provided from the outside. The state manager may provide a power failure occurrence notification signal. In addition, the power manager 18 may cut off the power provided to the wireless communication unit 152 when a power failure occurs, and control the power distribution so that power may be consumed in the periodic gas volume conversion operation. That is, the power management unit 18, since the temperature correction function for converting the gas volume in accordance with the temperature and pressure is a key function of the automatic meter reading device to ensure that the stable gas usage can be accurately charged to the city gas subscriber through metering, In order to ensure accurate gas volume conversion even in the event of an external power failure, power can be minimized for incidental communication functions, and power can be allocated to functions for temperature / pressure calculation, gas volume calculation and gas volume conversion. .

EMBODIMENT OF THE INVENTION Hereinafter, with reference to an accompanying drawing, the effect of the automatic meter reading apparatus which has the wireless communication function and the temperature-pressure correction function which concerns on one Embodiment of this invention which has the structure as mentioned above is demonstrated.

The automatic meter reading device 10 having a wireless communication function and a temperature pressure correction function according to an embodiment of the present invention is a gas detected by each of the pressure detector 30, the temperature detector 40, and the volume detector 50 installed in the gas pipe. The pressure signal Pr, the temperature signal T, and the volume signal LF of the gas in the pipe are received, and the temperature / pressure measuring unit 11 calculates the actual gas temperature value and the pressure value, and the gas flow rate measuring unit. The actual gas volume value is calculated at 12 and transferred to the gas volume conversion unit 13.

The gas volume converting unit 13 applies a preset temperature correction coefficient using a gas temperature value, a pressure value, and a volume value calculated by the temperature / pressure measuring unit 11 and the gas flow rate measuring unit 12 to adjust the temperature of the gas. And a gas volume conversion value according to pressure, that is, a correction value of the gas volume in consideration of temperature and pressure. The calculation of the gas volume conversion value by the gas volume conversion unit 13 may be performed at a predetermined period.

The gas volume conversion value periodically calculated by the gas volume conversion unit 13 may be stored in the data management unit 14. In addition, the gas volume conversion value periodically calculated by the gas volume conversion unit 13 may be provided to the wireless communication unit 15 in real time, and may be wirelessly transmitted to the management server by the wireless communication unit 15.

The data management unit 14 records the gas volume conversion value provided by the gas volume conversion unit 13, as shown in FIG. 3, and a data index list 61 that records the time at which the gas volume conversion value is calculated and the link data information. And the actual gas volume conversion value data may be separated and stored in the measured data list 62. As described above, the data management unit 14 includes a data index list 61 which records the reference date of data storage, the number of data and the number of links of the plurality of measurement data lists linked to the reference date, and the data index list 61. By separating and storing the measurement data list 62 in which a plurality of gas converted value data linked to are stored, the data storage amount is compared with the conventional method of simultaneously storing the time information at which the gas converted value is calculated and the data measured at the time. Can be significantly reduced. That is, the conventional data storage method requires a storage space for recording all of the time information at which the gas conversion value is generated, but the data storage method applied in an embodiment of the present invention is based on the reference date in the data index list 61. Since the number and link number of a plurality of gas conversion data corresponding thereto are stored in a list, the data storage space can be significantly reduced as compared with the conventional method of recording all time information. In addition, in the conventional data storage method, when only data on a specific day is to be transmitted, a problem arises in that the amount of data transmission is unnecessarily increased by reading and transmitting all data recorded before a specific day together. In the form, the data index list 61 may be searched to find an index of the reference date to which the corresponding day belongs, and only a link corresponding to the index may be read, thereby significantly reducing the data transmission amount.

The communication state management unit 151 in the wireless communication unit 15 reads the gas volume conversion value from the gas volume conversion unit 151, transfers it to the wireless communication module 152, converts it into a wireless signal suitable for wireless communication, and performs an antenna ( 19) can be transmitted to a remote management server. The communication state manager 151 may monitor the wireless communication module 152 whether the data transmission by the wireless communication module 152 was successful. If the data transmission is not successful, the communication state management unit 151 pre-registers the wireless communication module 152. You can check the set steps and instruct data retransmission. When a continuous data transmission failure occurs a predetermined number of times, the communication state manager 151 may take measures such as resetting the wireless communication module 152.

In addition, the wireless communication unit 15 may wirelessly receive the on-pressure correction coefficient calculation factor used for the gas volume conversion calculation of the gas volume conversion unit 13 from the management server or the like and provide the same to the gas volume conversion unit. The temperature correction factor calculation factor must be changed as the calorific value of the gas to be supplied changes to calculate an accurate gas volume conversion value. Therefore, when the calorific value of the gas to be supplied is changed, the temperature-pressure correction coefficient calculation factors of all the metering devices installed in the region where the calorific value gas is supplied must be changed at the same time. According to one embodiment of the present invention, since the automatic meter reading apparatus includes the wireless communication section 15, the temperature correction coefficient calculation factor changed into a plurality of meter reading apparatuses simultaneously from the management server or the like to the wireless communication section 15 of each automatic meter reading apparatus. It may be transmitted, and the on-pressure correction coefficient calculation factor received by the wireless communication unit 15 may be transferred to the gas volume conversion unit 13 to be applied to the gas volume conversion calculation. In addition, the gas volume converting unit 13 may receive the time information from the wireless communication module 152 of the wireless communication unit 15 and reserve the time for applying the newly received on-pressure correction coefficient calculation factor. In general, a wireless communication module 152 such as a WCDMA modem receives information on a current time from a base station or the like. Thus, when applying one Embodiment of this invention, the some automatic meter reading apparatus 10 can update and apply a temperature-pressure correction coefficient calculation factor at the same time substantially. As described above, the automatic meter reading apparatus according to the embodiment of the present invention can simultaneously update the correction factor calculation factors in the plurality of automatic meter reading apparatuses by using the wireless communication function, thereby ensuring the equity of the charging according to the gas usage. have.

Meanwhile, the power manager 18 may continuously monitor the external power input from the external power input unit 16. 4 is a flowchart showing the operation of the power management unit 18 of the automatic meter reading apparatus having the wireless communication function and the temperature pressure correction function according to the embodiment of the present invention.

The power management unit 18 may monitor the external power input from the external power input unit 16, and when the external power drops below a predetermined voltage or the external power input is blocked (S11), one embodiment of the present invention The power supply state may be changed to use the power of the backup battery 17 inside the automatic meter reading apparatus 10 according to the form (S12). After changing to a power state provided with power from the backup battery 17, the external power input unit 16 notifies the communication state manager 151 of the wireless communication unit 15 that the power state has changed, and the communication state manager 151 The wireless communication module 152 may transmit a message notifying that the power state has changed to the management server or the like (S13). Subsequently, the power manager 14 minimizes the consumption of the backup battery to detect the gas temperature / pressure and volume in the gas pipe for gas reading, which is the main function of the automatic reading device according to the embodiment of the present invention, and thereby converts the gas volume. The power to the wireless communication unit 15 can be cut off so that no disruption occurs (S14).

Through the power management function of the power management unit 18, the automatic meter reading apparatus 10 according to an embodiment of the present invention smoothly performs the gas volume conversion function for a long time even when the power supplied from the outside is reduced or cut off. In particular, it is possible to immediately transmit a problem in the power state to the management server or the like through wireless communication to enable a quick action on the external power cut.

In the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims and their equivalents.

Claims (8)

1. A temperature / pressure measuring unit configured to receive a signal detecting the temperature / pressure of the gas in the gas pipe and calculate a temperature value and a pressure value of the gas;

   A gas gas flow rate measuring unit configured to receive a signal detecting the volume of the gas provided into the gas pipe and calculate a volume value of the gas;

   A gas volume converting unit configured to calculate the corrected gas volume value by correcting the volume value according to the temperature value and the pressure value of the gas;

   A data manager which stores the corrected gas volume value; And

   A wireless communication unit for wirelessly transmitting the corrected gas volume value calculated in the gas volume conversion unit or the corrected gas volume value stored in the data management unit.

   Automatic meter reading device having a wireless communication function and a temperature correction function comprising a.
2. The method of claim 1, wherein the data management unit,

   A data index list in which the corrected gas volume values are calculated, and the number of link gas numbers and the number of corrected gas volume values measured in the view information are indexed; And

   And a measurement data list linked to each index of the data index list, the measured data list storing a plurality of corrected gas volume value data measured in the viewpoint information according to the link data number. Automatic meter reading device with a function.
3. The method of claim 2,

   When a corrected gas volume value data request of a specific date is received through the wireless communication unit,

   The data manager retrieves an index having viewpoint information corresponding to the specific date in the data index list, and provides corrected gas volume value data of the measured data list linked to the searched index to the wireless communication unit. Automatic meter reading device having a wireless communication function and a temperature correction function.
4. The method of claim 1,

   An external power input unit to which power is input from the outside;

   A backup battery that provides power when the external power inputted from the external power input unit is lowered or cut off below a predetermined reference; And

   A wireless communication function and a temperature correction function, comprising: a power management unit for monitoring the external power input from the external power input unit, controlling the operation of a backup battery, and distributing power of the external power and the backup battery. Automatic meter reading device having a.
5. The method of claim 4, wherein

   The power management unit notifies the wireless communication unit of a change in power state when the external battery inputted from the external power input unit is lowered or shut down below a predetermined criterion to operate the backup battery.

   The wireless communication unit has a wireless communication function and a temperature correction function, characterized in that for transmitting a power state change message.
6. The method of claim 5,

   And the power management unit cuts off power provided to the wireless communication unit after the wireless communication unit transmits a power state change message.
7. The method of claim 1,

   The wireless communication unit may receive an on-pressure correction coefficient calculation factor for calculating the corrected gas volume value wirelessly from an external management server, and transmit the received on-pressure correction coefficient calculation factor to the gas volume conversion unit. Automatic meter reading device having a wireless communication function and a temperature correction function.
8. The method of claim 7, wherein

   The gas volume converting unit calculates a corrected gas volume value by updating the on-pressure correction coefficient calculating factor received from the wireless communication unit at a preset reservation time according to time information provided by the wireless communication unit. And an automatic meter reading device having a temperature correction function.

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