KR100912952B1 - Gas calibration information remote monitoring system and method thereof. - Google Patents

Abstract

The present invention is installed in the city gas pipeline to calculate and store the gas correction information, the gas correction device for transmitting to the outside, and coupled to the gas correction device, transmits the gas correction information request signal to the gas correction device and the gas The gas compensation information request signal is sequentially transmitted to a gas correction information external transmission device (slave) which obtains the requested information from the correction device and is transmitted to the outside, and at least one gas correction information external transmission device (slave). A gas correction information external transmission device (master) which acquires the requested information from an external transmission device (slave) and transmits it to the outside; and a gas correction information management server which transmits and receives signals and information with the gas correction information external transmission device (master). It includes, but the gas correction information external transmission device (slave) and gas correction information external transmission device (mas And a main control unit, a short-range communication unit, a wired communication unit, and a wireless communication unit, and the gas correction information management server includes a gas correction information monitoring program and a storage unit. Provides a remote monitoring system and method thereof.

Gas Compensator, Remote, Monitoring

Description

Remote monitoring system for gas correction information and method

1 is a view showing a gas correction information external transmission device (slave) and a gas compensation device communicating therewith;

2 is a diagram showing a gas correction information external transmission device (master) and a gas correction information management server communicating with the gas correction information;

3 is a view showing an embodiment of a gas correction information remote monitoring system according to the present invention.

4 is a view showing another embodiment of a gas correction information remote monitoring system according to the present invention;

5 is a view showing a gas correction information remote monitoring method according to the present invention.

<Description of Symbols for Major Parts of Drawings>

1: gas compensator

2: External gas correction information transmission device (slave)

3: External correction device for gas correction information (master)

4: gas correction information management server

41: gas correction information monitoring program

42: storage unit

The present invention relates to a gas correction information remote monitoring system and method thereof, and more specifically, bidirectional communication is possible, and in a certain period or when an error occurs, it is possible to immediately request gas correction information and predetermined state information, The present invention relates to a gas correction information remote monitoring system and method for supporting a transmission method through various transmission media.

Conventionally, in order to monitor the gas correction information calculated by the gas compensator, it is checked through the LCD window of the gas compensator in the constant pressure chamber in which the gas compensator is provided, or by using the laptop, the gas correction information is obtained from the gas compensator. The gas correction information was sent to the management server using a programmable logic controller (PLC), or the gas correction information was sent to the management server. Among them, the method using the PLC is a method of transmitting gas correction information using a power source of 24V / 20 ~ 40mA, and thus the reliability is not good because of the influence of external noise or disturbance. Since most of the production lines are large production lines, there was a problem of being affected by disturbances. In addition, the conventional method using the PLC is a one-way transmission method, and since gas correction information is transmitted at a set cycle, retransmission requests are not possible when an error occurs during transmission. There was no problem.

The present invention has been made to solve the above problems, an object of the present invention to provide a gas correction information remote monitoring system and method capable of bidirectional communication.

Another object of the present invention is to provide a gas correction information remote monitoring system and method capable of requesting gas correction information and predetermined state information immediately at regular intervals or when an error occurs.

It is still another object of the present invention to provide a gas correction information remote monitoring system and method which can be configured in a multi way for a plurality of gas correction devices.

It is still another object of the present invention to provide a gas correction information remote monitoring system and method capable of communicating in various wired and wireless manners by supporting various transmission media.

The present invention is implemented by an embodiment having the following configuration to achieve the above objects.

According to the first embodiment of the present invention, the gas correction information remote monitoring system of the present invention is installed in the city gas pipeline to calculate and store the gas correction information, and transmits to the outside, coupled to the gas correction device And a gas correction information external transmission device (slave) which transmits a gas correction information request signal to the gas compensation device, obtains the requested information from the gas compensation device, and transmits the information to the outside, and at least one gas correction information external transmission device ( Slave) transmits the gas correction information request signal sequentially and the gas correction information external transmission device (master) to obtain the requested information from the gas correction information external transmission device (slave) and transmit it to the outside, and the gas correction information external transmission Gas correction information management server for transmitting and receiving signals and information with the device (master) is made, Switch correction information External transmission device (slave) and gas correction information The external transmission device (master) comprises a main control unit, a short-range communication unit, a wired communication unit, and a wireless communication unit, the gas correction information management server is gas correction information And a monitoring program and a storage.

According to the second embodiment of the present invention, in the gas correction information remote monitoring system of the present invention, in the first embodiment, the gas correction device and the gas correction information external transmission device (slave) may be any one of RS232, RS422, and RS485. The gas correction information external transmission device (slave) and the gas correction information external transmission device (master) communicate by using any one of a wired method and a wireless method. Gas correction information external transmission device (master) and the gas correction information management server is characterized in that the communication using any one of the RS232, RS422, RS485 communication method. The gas correction information management server generates a predetermined reset signal and transmits it to the gas correction information external transmission device (master), and confirms whether or not to initialize the gas correction information external transmission device (master) performed by the reset signal. The signal is received and the confirmation signal is stored in the internal storage and characterized in that the present.

According to a third embodiment of the present invention, in the gas correction information remote monitoring system of the present invention, in the first or second embodiment, the gas correction information management server generates a predetermined reset signal to generate the gas correction. It transmits the information to the external transmission device (master), receives a confirmation signal for confirming whether or not the gas correction information external transmission device (master) performed by the reset signal is stored in the internal storage and presenting the confirmation signal It is characterized by.

According to the fourth embodiment of the present invention, the gas correction information remote monitoring system of the present invention is the gas correction information management server according to the first or second embodiment, the gas correction information and predetermined state information. Generates a signal for the acquisition period of the signal, gas correction information and a predetermined state information request signal, and transmits the signal to the gas correction information external transmission device (master), and obtains the requested information from the gas correction information external transmission device (master). And store the requested information for each gas compensating device.

According to a fifth embodiment of the present invention, in the gas correction information remote monitoring system of the present invention, in the first or second embodiment, the gas correction information management server further generates a predetermined emergency call command signal. It is characterized in that for transmitting the emergency call command signal to the gas correction information external transmission device (master).

According to the sixth embodiment of the present invention, in the gas correction information remote monitoring system of the present invention, in the first or second embodiment, the gas correction information external transmission device (master) is the gas correction information management server. Initialized by the reset signal transmitted from the, characterized in that for transmitting the confirmation signal for the initialization to the gas correction information management server.

According to the seventh embodiment of the present invention, in the gas correction information remote monitoring system of the present invention, in the first or second embodiment, the gas correction information external transmission device (master) is the gas correction information management server. Storing the gas correction information and the signal for the acquisition period of the predetermined state information, and the gas correction information and the predetermined state information request signal transmitted from the internal storage device, and checking the signal for the acquisition period to obtain the signal. The gas correction information request signal is sequentially transmitted to at least one gas correction information external transmission device (slave) at each cycle, and the gas compensation information transmitted from the gas correction information external transmission device (slave) and a predetermined state separately obtained. The information is transmitted to the gas correction information management server.

According to the eighth embodiment of the present invention, in the gas correction information remote monitoring system of the present invention, in the first or second embodiment, the gas correction information external transmission device (master) is the gas correction information management server. When the emergency call command signal is transmitted from the gas correction information, characterized in that for transmitting to the external transmission device (slave).

According to a ninth embodiment of the present invention, in the gas correction information remote monitoring system of the present invention, in the first embodiment, at least one gas correction information external transmission device (slave) is present so that the gas correction information external transmission device is present. If the corresponding ID call information in the gas compensation information request signal transmitted from the master to each of the gas compensation information external transmission devices (slave) is identical to its ID information, the internal auxiliary memory device stores the gas correction information. If the checked gas correction information is not up-to-date, the gas correction information request signal is transmitted to the gas correction apparatus to obtain the latest gas correction information, and then transmitted to the gas correction information external transmission device (master). Stored in an internal auxiliary storage device, and if the checked gas correction information is up-to-date, the gas correction information external transmission device is immediately The gas correction information is transmitted to the (master).

According to the tenth embodiment of the present invention, the gas correction information remote monitoring system of the present invention is the gas correction information external transmission device (slave) according to the first embodiment of the present invention. When the emergency call command signal is transmitted, the gas correction information stored in the internal auxiliary storage device is immediately transmitted to the gas correction information external transmission device (master).

According to an eleventh embodiment of the present invention, the gas correction information remote monitoring method of the present invention includes the step of transmitting a gas correction information external transmission device (master) by generating a predetermined reset signal to the gas correction information management server (S10) and The gas correction information external transmission device (master) receives and initializes the reset signal transmitted from the gas correction information management server, and generates a confirmation signal for confirming the initialization and transmits the confirmation signal to the gas correction information management server (S30). And, the gas correction information management server generates a signal for the acquisition period of the gas correction information and the predetermined state information, gas correction information and the predetermined state information request signal to the gas correction information external transmission device (master) In step S50, and the gas correction information external transmission device (master) is sent to the gas correction information management server and the gas correction information and predetermined state correction Storing the signal for the acquisition period of the beam, the gas correction information and the predetermined state information request signal in an internal auxiliary memory device, and checking the signal for the acquisition period to externally transmit one or more of the gas correction information for each acquisition period. And sequentially transmitting the gas correction information request signal to a device (slave) (S70), and the one or more gas correction information external transmission devices (slaves) are respectively provided by the gas compensation information external transmission device (master). If the corresponding ID call information in the gas correction information request signal transmitted sequentially matches the ID information of the own, the internal auxiliary memory device checks the gas correction information, and if the checked gas correction information is not up-to-date, Transmitting a gas correction information request signal to a correction device (S90), and a gas correction field receiving the gas correction information request signal; (S110) transmitting the gas correction information to the gas correction information external transmission device (slave), and the gas correction information external transmission device (slave) receiving the gas correction information from the gas compensation window value, transmits the gas correction information externally. Transmitting gas correction information to a device (master) (S130), and the gas compensation information external transmission device (master) transmitted from the gas compensation information external transmission device (slave) to the internal auxiliary storage device Storing in the gas correction information management server (S150), and storing the gas correction information received from the gas correction information external transmission device (master) by the gas correction information management server in an internal storage unit; It characterized in that it comprises a step (S170) for presenting the corresponding gas correction information for each gas correction device.

According to a twelfth embodiment of the present invention, the gas correction information remote monitoring method of the present invention is the eleventh embodiment, wherein the steps S90 to S130 may include the at least one gas correction information external transmission device. Slave) the gas in the internal auxiliary storage device when the corresponding ID call information and the corresponding ID information in the gas correction information request signal sequentially transmitted from the gas correction information external transmission device (master) for each of them match If the checked gas correction information is up-to-date by checking the correction information, the gas correction information is immediately transferred to the gas correction information external transmission device (master).

According to a thirteenth embodiment of the present invention, in the gas correction information remote monitoring method of the present invention, in the eleventh or twelfth embodiment, the gas correction information external transmission device (master) after the step (S70) If the response signal does not reach within 5 seconds, the ID of the gas correction information external transmission device (slave) with no response is stored in the auxiliary storage device inside the gas compensation information external transmission device (master), and the gas compensation is performed. And automatically resetting the gas correction information external transmission device (slave) that does not respond by a watchdog timer inside the information external transmission device (master) (S80) after the step (S70). Characterized in that.

According to a fourteenth embodiment of the present invention, in the gas correction information remote monitoring method of the present invention, in the thirteenth embodiment, the gas correction information external transmission device (slave) is reset after the step (S80). When the correction information external transmission device (master) requests a retransmission and responds, the ID of the gas correction information external transmission device (slave) is stored in the auxiliary storage device inside the gas compensation information external transmission device (master). When there is no response, the gas correction information external transmission device (slave) with no response is automatically reset up to three times by an internal watchdog timer of the gas correction information external transmission device (master), If there is no response more than three times, the step (S81) of transmitting the corresponding gas correction information external transmission device (slave) abnormal signal to the gas correction information management server (S81). S80) characterized in that it further comprises.

According to a fifteenth embodiment of the present invention, in the gas correction information remote monitoring method of the present invention, in the fourteenth embodiment, the gas correction information external transmission transmitted to the gas correction information management server after the step (S81). The abnormality of the gas correction information external transmission device (slave) is displayed in the gas correction information management server by the device (slave) abnormal signal, and the gas correction information management server generates an emergency call command signal to generate the gas. And transmitting the correction information to the external transmission device (master) (S82) after the step (S81).

According to a sixteenth embodiment of the present invention, in the gas correction information remote monitoring method of the present invention, in the fifteenth embodiment, the gas correction information external transmission device (master) is the emergency call command after the step (S82). And transmitting the signal to the corresponding gas correction information external transmission device (slave) (S83) after the step (S82).

According to the seventeenth embodiment of the present invention, in the sixteenth embodiment, in the gas monitoring information remote monitoring method, the gas correction information external transmission device (slave) is provided after the step (S83). And transmitting (S84) the gas correction information currently stored in the memory to the gas correction information external transmission device (master) after the step S83.

According to the eighteenth embodiment of the present invention, in the gas correction information remote monitoring method of the present invention, in the seventeenth embodiment, the gas correction information external transmission device (master) is performed after the step (S84). And transmitting the gas correction information transmitted from the external transmission device (slave) to the gas correction information management server (S85) after the step (S84).

According to the nineteenth embodiment of the present invention, in the gas correction information remote monitoring method of the present invention, in the eighteenth embodiment, the gas correction information management server transmits the gas correction information external transmission device after the step (S85). And storing (S86) the gas correction information received from the master) in a storage unit therein and displaying the same (S86) after the step (S85).

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the gas correction information remote monitoring system and method according to the present invention will be described in detail.

1 is a view showing a gas correction information external transmission device (slave) and a gas compensation device communicating therewith.

2 is a diagram illustrating a gas correction information external transmission device (master) and a gas correction information management server communicating with the gas correction information.

3 is a view showing an embodiment of a gas correction information remote monitoring system according to the present invention.

4 is a view showing another embodiment of a gas correction information remote monitoring system according to the present invention.

5 is a view showing a gas correction information remote monitoring method according to the present invention.

As shown in Figures 1 to 4, the gas correction information remote monitoring system according to the present invention is a gas correction device 1, gas correction information external transmission device (slave) 2, gas correction information external transmission device And a gas correction information management server 4.

The gas compensator 1 corrects an error that may occur due to a difference between a reference temperature and a reference pressure applied when a gas is supplied by a gas supplier and an instantaneous temperature and an instantaneous pressure in a gas pipe of a gas consumer. Store gas correction information and transmit it to the outside.

As shown in FIG. 1, the gas correction information external transmission device (slave) 2 includes a main control unit 21, a short range communication unit 22, a wired communication unit 23, and a wireless communication unit 24. It is configured by.

The main controller 21 includes a central processing unit 211, a main memory device 212, an auxiliary memory device 213, and a watchdog timer 214.

The central processing unit 211 is a processor for controlling the gas correction information external transmission device (slave) 2.

The main memory device 212 and the auxiliary memory device 213 are memory devices capable of reading or writing data, and among them, an EEPROM is preferably used as the auxiliary memory device 213.

The watchdog timer 214 is a timer device that determines whether a given condition is satisfied within a predetermined time.

The short range communication unit 22 includes an RS232 221, an RS422 222, and an RS485 223.

The RS232 221, RS422 222, and RS485 223 are communication protocols for interconnecting a data terminal device (DTE) and a data line termination device (DCE) such as a modem or a data concentrator.

The wired communication unit 23 includes an RS-232 231, an RS-422 232, an RS-485 233, and an Ethernet 234.

The RS-232 231, RS-422 232, RS-485 233, and Ethernet 234 are well known to those skilled in the art, and a detailed description thereof will be omitted.

The wireless communication unit 24 includes an RF modem 241, a ZigBee modem 242, a WirelessLAN modem 243, and a CDMA modem 244.

The RF modem 241, the ZigBee modem 242, the WirelessLAN modem 243, and the CDMA modem 244 are well known to those skilled in the art, and a detailed description thereof will be omitted.

As illustrated in FIG. 2, the gas correction information external transmission device (master) 3 includes a main control unit 31, a short range communication unit 32, a wired communication unit 33, and a wireless communication unit 34. It is configured by.

The main controller 31 includes a central processing unit 311, a main memory device 312, an auxiliary memory device 313, and a watchdog timer 314.

The central processing unit 311 is a processor for controlling the gas correction information external transmission device (master) 3.

The main memory device 312 and the auxiliary memory device 313 are memory devices capable of reading or writing data, and among them, an EEPROM is preferably used as the auxiliary memory device 313.

The watchdog timer 314 is a timer device that determines whether a given condition is satisfied within a predetermined time.

The short range communication unit 22 includes an RS232 221, an RS422 222, and an RS485 223.

The RS232 321, RS422 322, and RS485 323 are communication protocols for interconnecting a data terminal device (DTE) and a data line termination device (DCE) such as a modem or a data concentrator.

The wired communication unit 33 includes an RS-232 331, an RS-422 332, an RS-485 333, and an Ethernet 334.

The RS-232 331, the RS-422 332, the RS-485 333, and the Ethernet 334 are well known to those skilled in the art, and a detailed description thereof will be omitted.

The wireless communication unit 34 includes an RF modem 341, a ZigBee modem 342, a WirelessLAN modem 343, and a CDMA modem 344.

The RF modem 341, the ZigBee modem 342, the WirelessLAN modem 343, and the CDMA modem 344 are well known to those skilled in the art, and a detailed description thereof will be omitted.

As shown in FIG. 2, the gas correction information management server 4 includes a gas correction information monitoring program 41 and a storage unit 42.

The gas correction information monitoring program 41 is a program for overall control of the gas correction information remote monitoring system according to the present invention.

The storage unit 42 is a storage medium for storing the various information transmitted to the gas correction information management server (4).

3 is a view showing an embodiment of the gas correction information remote monitoring system according to the present invention, the gas correction information external transmission device (slave) 2 connected to the gas correction device 1 installed in each factory is gas correction It shows communication with the external information transmission device (master) 3 and the wired method (RS-232, RS-422, RS-485, Ethernet).

On the other hand, Figure 4 is a view showing another embodiment of the gas correction information remote monitoring system according to the present invention, the gas correction information external transmission device (slave) 2 connected to the gas correction device (1) installed in each factory is The gas correction information is communicated with an external transmission device (master) 3 and a radio system (RF, Zigbee, WirelessLAN, CDMA).

Hereinafter, the gas correction device 1, the gas correction information external transmission device (slave) 2, the gas correction information external transmission device (master) 3, and the gas correction information management server 4 The signal flow will be described in detail.

The gas correction information management server 4 generates a predetermined reset signal and transmits it to the gas correction information external transmission apparatus (master) 3, and the gas correction information external transmission apparatus (master) 3 Initialized by the reset signal transmitted from the gas correction information management server 4, and transmits a confirmation signal for the initialization whether to the gas correction information management server (4). The gas correction information management server 4 receives an acknowledgment signal confirming whether to initialize the gas correction information external transmission device (master) performed by the reset signal, stores the acknowledgment signal in the internal storage, and displays it. At this time, the predetermined reset signal is a signal for performing a reset on the gas correction information external transmission device (master).

The gas correction information management server 4 generates a signal for acquiring the gas correction information and the predetermined state information, and a gas correction information and the predetermined state information request signal to generate the gas correction information external transmission device (master (3), the gas correction information external transmission device (master) (3) is a signal for the acquisition period of the gas correction information and the predetermined state information transmitted from the gas correction information management server, and gas correction information And store a predetermined state information request signal in an internal auxiliary memory device 313, check a signal for the acquisition period, and supply the gas to at least one gas correction information external transmission device (slave) 2 at each acquisition period. The correction information request signal is sequentially transmitted.

The gas correction information external transmission device (slave) 2 is gas correction information sequentially transmitted from the gas correction information external transmission device (master) 3 to each gas correction information external transmission device (slave) 2. If the corresponding ID call information in the request signal and the ID information of the request match, the internal auxiliary memory device 213 checks the gas correction information. If the checked gas correction information is not the latest, the gas compensation device 1 ) To obtain the latest gas correction information by transmitting the gas correction information request signal to the gas correction information external transmission device (master) 3, and store the stored gas in the auxiliary storage device 213 therein. If the gas correction information is up-to-date, the gas correction information is immediately transmitted to the gas correction information external transmission device (master) 3.

The gas correction information external transmission device (master) 3 stores the gas correction information transmitted from the gas correction information external transmission device (slave) 2 and predetermined state information separately obtained from the gas correction information management server ( 4), the gas correction information management server 4 acquires the information transmitted from the gas correction information external transmission device (master), stores it in an internal storage, and displays the requested information for each gas correction device. At this time, the gas correction information is gas consumption, gas correction amount, temperature data, pressure data, request data, and the predetermined state information is gas compensation device status information and gas compensation information external transmission device (slave) status information.

On the other hand, after the above-described process, the gas correction information management server 4 further generates a predetermined emergency call command signal and transmits the emergency call command signal to the gas correction information external transmission device (master) 3. The gas correction information external transmission device (master) 3 transmits an emergency call command signal from the gas correction information management server 4 to the corresponding gas correction information external transmission device (slave) 2, The gas correction information external transmission device (slave) 2 immediately receives the gas compensation information stored in the internal auxiliary storage device 213 when an emergency call command signal is transmitted from the gas correction information external transmission device (master) 3. The gas correction information is transmitted to an external transmission device (master), and the gas correction information external transmission device (master) 3 transmits the gas correction information immediately transmitted from the gas correction information external transmission device (slave) 2. end Calibration information management server 4 to transmit, and a gas corrected obtain a calibration gas immediately reporting the information management server 4 saliency them.

Hereinafter, the gas correction information remote monitoring method according to the present invention will be described in detail.

As shown in Figure 5, the gas correction information remote monitoring method according to the present invention comprises the following steps.

The gas correction information management server 4 generates a predetermined reset signal and transmits it to the gas correction information external transmission apparatus (master) 3 (S10), and the gas correction information external transmission apparatus (master) 3 Receiving and initializing the reset signal transmitted from the gas correction information management server 4, generating a confirmation signal for confirming the initialization and transmitting to the gas correction information management server 4 (S30), and the gas The correction information management server 4 generates a signal for a period for acquiring gas correction information and predetermined state information, a gas correction information and a predetermined state information request signal, and transmits the gas correction information external transmission device (master) 3. In step S50, and the gas correction information external transmission device (master) 3 and the signal for the acquisition period of the gas correction information and the predetermined state information transmitted from the gas correction information management server (4) and , Gas correction information and predetermined state The information request signal is stored in an internal auxiliary memory device 313, and the signal for the acquisition period is checked to request the gas correction information to the at least one gas correction information external transmission device (slave) 2 at each acquisition period. The step (S70) of transmitting the signal sequentially, and the at least one gas correction information external transmission device (slave) 2 are sequentially transmitted from the gas correction information external transmission device (master) 3 for each of them. If the corresponding ID call information in the corrected gas correction information request signal coincides with the own ID information, the internal auxiliary memory device 213 checks the gas correction information, and if the checked gas correction information is not up-to-date, Transmitting the gas correction information request signal to the correction device 1 (S90), and the gas correction device (1) receiving the gas correction information request signal to the gas correction information other than the gas correction information The gas correction information external transmission device (slave) 2, which has received the gas correction information from the gas correction window 1, is transmitted to the sub-transmission device (slave) 2 (S110). Transmitting gas correction information to the device (master) 3 (S130), and the gas correction information external transmission device (master) 3 received from the gas correction information external transmission device (slave) 2; Storing the gas correction information in the internal auxiliary storage device 313 and transmitting the gas correction information to the gas correction information management server 4 (S150), and the gas correction information management server 4 transmits the gas correction information external transmission device ( And storing the gas correction information received from the master) 3 in the storage 42 therein, and presenting the gas correction information for each gas correction apparatus 1 (S170).

In this case, the steps S90 to S130 may include the at least one gas correction information external transmission device (slave) 2 sequentially from the gas correction information external transmission device (master) 3 for each of them. If the corresponding ID call information in the transmitted gas correction information request signal coincides with the ID information thereof, the internal auxiliary memory device 213 checks the gas correction information, and when the checked gas correction information is up-to-date, Immediately to the gas correction information external transmission device (master) 3 can be replaced by the step (S100) for transmitting the gas correction information.

In addition, when the response signal does not reach the gas correction information external transmission device (master) 3 within 5 seconds after the step S70, the response of the gas compensation information external transmission device (slave) 2 is unresponsive. An ID is stored in an auxiliary memory device 313 inside the gas correction information external transmission device (master) 3, and a watchdog timer 314 inside the gas correction information external transmission device (master). The step (S80) of automatically resetting the gas correction information external transmission device (slave) 2 having no response may be further included after the step S70.

In addition, when the gas correction information external transmission device (master) 3 requests a retransmission to the gas correction information external transmission device (slave) 2 that is reset after the step S80, the corresponding gas is returned. The ID of the correction information external transmission device (slave) 2 is stored in the auxiliary memory device 313 inside the gas correction information external transmission device (master) 3, and if there is no response, the gas correction information external The internal watchdog timer 314 of the transmission device (master) 3 automatically resets the gas correction information external transmission device (slave) 2 that is not responding up to three times, and performs three times. If there is no response, the step S81 of transmitting the gas correction information external transmission device (slave) abnormal signal to the gas compensation information management server 4 may be further included after the step S80.

Further, the gas correction information external transmission device (slave) 2 is transmitted by the gas correction information external transmission device (slave) abnormal signal transmitted to the gas correction information management server 4 after the step S81. The abnormality is present in the gas correction information management server 4, and the gas correction information management server 4 generates an emergency call command signal and transmits it to the gas correction information external transmission device (master) 3. The step S82 may be further included after the step S81.

Further, after the step S82, the gas correction information external transmission device (master) 3 transmits the emergency call command signal to the corresponding gas compensation information external transmission device (slave) 2 (S83). It may be further included after the step (S82).

Further, after the step S83, the gas correction information external transmission device (slave) 2 sends the gas correction information currently stored in the auxiliary storage device 213 therein to the gas compensation information external transmission device (master) ( The step S84 of transmitting to 3) may be further included after the step S83.

Further, after the step S84, the gas correction information external transmission device (master) 3 transmits the gas correction information transmitted from the gas correction information external transmission device (slave) 2 to the gas correction information management server 4 Step S85 may be further included after step S84.

In addition, after the step S85, the gas correction information management server 4 stores the gas correction information received from the gas correction information external transmission device (master) 3 in the storage 42 therein. In this case, the step S86 may be further included after the step S85.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

The present invention has the following effects by the above configuration.

The present invention has the effect of providing a gas correction information remote monitoring system and a method capable of bidirectional communication.

The present invention has the effect of providing a gas correction information remote monitoring system and method capable of requesting gas correction information and predetermined state information immediately at regular intervals or when an error occurs.

The present invention has the effect of providing a gas correction information remote monitoring system and method that can be configured in a multi to a plurality of gas correction apparatus.

The present invention has the effect of providing a gas correction information remote monitoring system and method that can support a variety of transmission media to communicate in a variety of wired and wireless manner.

Claims (19)

A gas correction device installed in the city gas pipe to calculate and store gas correction information, and transmit it to the outside; A gas correction information external transmission device (slave) coupled to the gas correction device, which transmits a gas correction information request signal to the gas correction device, obtains the requested information from the gas compensation device, and transmits the requested information to the outside; A gas correction information external transmission device configured to sequentially transmit gas correction information request signals to at least one gas correction information external transmission device (slave), and to obtain the requested information from the gas correction information external transmission device (slave) and transmit them to the outside; master); And Includes; gas correction information management server for transmitting and receiving signals and information with the gas correction information external transmission device (master), The gas correction information external transmission device (slave) and gas correction information external transmission device (master) are configured to include a main control unit, a short-range communication unit, a wired communication unit, and a wireless communication unit, and the gas correction information management server includes gas correction. Information monitoring program, including a storage unit, The gas correction information management server generates a signal for the acquisition period of the gas correction information and the predetermined state information, the gas correction information and the predetermined state information request signal, and transmits it to the gas correction information external transmission device (master), Acquire the requested information from the gas correction information external transmission device (master), store it in an internal storage unit, and display the requested information for each gas compensation device, and the gas correction information external transmission device (master) is the gas correction information management server. Storing the gas correction information and the signal for the acquisition period of the predetermined state information, and the gas correction information and the predetermined state information request signal transmitted from the internal storage device, and checking the signal for the acquisition period to obtain the signal. The gas correction information request signal is sequentially transmitted to at least one gas correction information external transmission device (slave) every cycle. And transmit gas correction information transmitted from the gas correction information external transmission device (slave) and predetermined state information separately obtained to the gas correction information management server, and the gas correction information external transmission device (slave) is one or more. If the ID call information and the corresponding ID information in the gas correction information request signal which are sequentially transmitted from the gas correction information external transmission device (master) to the respective gas correction information external transmission devices (slave) are internal, Check the gas correction information in the secondary storage device of the controller, and if the checked gas correction information is not up-to-date, transmit the gas correction information request signal to the gas correction device to obtain the latest gas correction information, and then After transmission to the transmission device (master) and stored in the internal auxiliary storage device, if the checked gas correction information is up-to-date In this case, the gas correction information is immediately transmitted to the gas correction information external transmission device (master). The gas correction information management server further generates a predetermined emergency call command signal to transmit the emergency call command signal to the gas correction information external transmission device (master), and the gas correction information external transmission device (master) is When the emergency call command signal is transmitted from the gas correction information management server, it is transmitted to the corresponding gas correction information external transmission device (slave), and the gas correction information external transmission device (slave) is transmitted from the gas correction information external transmission device (master). When the emergency call command signal is transmitted, the gas correction information remote monitoring system, characterized in that for transmitting the gas correction information stored in the internal auxiliary storage device to the gas correction information external transmission device (master) immediately. The method of claim 1, The gas correction device and the gas correction information external transmission device (slave) communicate using any one of RS232, RS422, and RS485 communication methods, and the gas correction information external transmission device (slave) and the gas correction information external transmission. The device (master) communicates using any one of wired or wireless communication methods, and the gas correction information external transmission device (master) and the gas correction information management server communicate with any one of RS232, RS422, and RS485. Gas correction information remote monitoring system, characterized in that for communicating using the method. The method of claim 2, The gas correction information management server generates a predetermined reset signal and transmits it to the gas correction information external transmission device (master), and confirms whether or not to initialize the gas correction information external transmission device (master) performed by the reset signal. Gas compensation information remote monitoring system, characterized in that for receiving the signal stored in the internal storage to the confirmation signal. delete delete The method of claim 3, wherein The gas correction information external transmission device (master) is initialized by the reset signal transmitted from the gas correction information management server, and the gas correction information, characterized in that for transmitting the confirmation signal to the gas correction information management server. Remote monitoring system. delete delete delete delete Generating, by the gas correction information management server, a predetermined reset signal and transmitting the gas correction information to an external transmission device (master) (S10); The gas correction information external transmission device (master) receives and initializes the reset signal transmitted from the gas correction information management server, and generates a confirmation signal for confirming the initialization and transmitting the generated confirmation signal to the gas correction information management server (S30). ; Generating, by the gas correction information management server, a signal for an acquisition period of gas correction information and predetermined state information, a gas correction information, and a predetermined state information request signal, and transmitting the generated signal to the gas correction information external transmission device (master); (S50); The gas correction information external transmission device (master) internally supplements a signal for acquiring periods of gas correction information and predetermined state information transmitted from the gas correction information management server, and gas correction information and predetermined state information request signals. Storing the data in a storage device and sequentially transmitting the gas correction information request signal to at least one gas correction information external transmission device (slave) for each acquisition period by checking a signal for the acquisition period (S70); The at least one gas correction information external transmission device (slave) may match its ID information with corresponding ID call information in the gas correction information request signal sequentially transmitted from the gas correction information external transmission device (master). In the case of checking the gas correction information in the internal auxiliary storage device, and if the checked gas correction information is not up-to-date (S90) transmitting a gas correction information request signal to the gas compensation device (S90); Transmitting, by the gas correction apparatus, the gas correction information received from the gas correction information request signal, to the gas correction information external transmission device (slave) (S110); Transmitting, by the gas correction information external transmission device (slave) receiving the gas correction information from the gas correction window, the gas correction information to the gas correction information external transmission device (master) (S130); Storing, by the gas correction information external transmission device (master), the gas correction information received from the gas correction information external transmission device (slave) in an internal auxiliary storage device and transmitting to the gas correction information management server (S150); And And storing, by the gas correction information management server, the gas correction information received from the gas correction information external transmission device (master) in an internal storage unit, and presenting the corresponding gas correction information for each gas correction device (S170). , The step S90 to step S130 may include the at least one gas correction information external transmission device (slave) within each of the gas compensation information request signals sequentially transmitted from the gas correction information external transmission device (master). If the ID call information and the ID information of the same match, check the gas correction information in the internal auxiliary storage device, and if the checked gas correction information is up to date, immediately go to the gas correction information external transmission device (master). It is replaced with the step (S100) of transmitting the gas correction information, If the response signal does not reach the gas correction information external transmission device (master) within 5 seconds after the step (S70), the ID of the gas correction information external transmission device (slave) with no response is transmitted externally to the gas correction information. The gas correction information external transmission device (slave) which is stored in the auxiliary storage device inside the device (master) and has no response by a watchdog timer inside the gas correction information external transmission device (master) Further comprising the step (S80) to reset after the step (S70), If the gas compensation information external transmission device (slave) is resent to the gas compensation information external transmission device (slave) that is reset after the step (S80), and there is a response, the corresponding gas compensation information external transmission device (slave) Is stored in the auxiliary storage device inside the gas correction information external transmission device (master), and if there is no response, responds by an internal watchdog timer of the gas correction information external transmission device (master). The gas correction information external transmission device (slave) that does not have a reset automatically up to three times, and if there is no response exceeding three times, the gas correction information management server sends an abnormal signal of the gas correction information external transmission device (slave). Further comprising the step (S81) after the step (S80), The gas correction information management server determines whether the gas correction information external transmission device (slave) is abnormal due to the gas correction information external transmission device (slave) abnormal signal transmitted to the gas correction information management server after the step S81. In addition, the gas correction information management server further comprises the step (S82) after the step (S81) of generating an emergency call command signal to the gas correction information external transmission device (master), After the step S82, the gas correction information external transmission device (master) transmits the emergency call command signal to the corresponding gas correction information external transmission device (slave) (S83) further after the step (S82). Including, After the step S83, the gas correction information external transmission device (slave) transmits the gas correction information currently stored in the auxiliary storage device therein to the gas compensation information external transmission device (master) (S84). After step S83, and After the step S84, the gas correction information external transmission device (master) transmits the gas correction information transmitted from the gas correction information external transmission device (slave) to the gas correction information management server (S85). (S84) and further included, After the step S85, the gas correction information management server stores the gas correction information received from the gas correction information external transmission device (master) in an internal storage unit, and displays it (S86). (S85) after the gas correction information remote monitoring method characterized in that it further comprises. delete delete delete delete delete delete delete delete

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