KR101199928B1 - Stack tele-monitoring system for remote controlling - Google Patents

Abstract

PURPOSE: A chimney remote monitoring system for remote control is provided to immediately sense the change of a measurement error and setup value of a measurement instrument and to remotely check the setup value and the state of the measurement instrument. CONSTITUTION: A measurement instrument(110) is installed in a chimney. The measurement instrument measures pollutant materials included in gas which is discharged from the chimney and output the measured value and a state signal. A data collector(120) receives digital signal outputted from the measurement instrument in real time and collects and analyzes it. A management server(130) receives the state signal and the measured value and monitors the measurement instrument and outputs control signal. [Reference numerals] (120) Data collector; (130) Management server

Description

Chimney remote monitoring system for remote control {STACK TELE-MONITORING SYSTEM FOR REMOTE CONTROLLING}

The present invention relates to a chimney remote monitoring system, and more particularly to a chimney remote monitoring system for monitoring the exhaust gas discharged from the chimney.

The chimney is a structure for discharging the gas generated when the fuel is burned out, and the gas discharged through the chimney often contains various pollutants. Therefore, the Air Conservation Act regulates the emission allowance standards for the gases emitted from the chimneys.

However, because the nature of the gas discharged from the chimney is dangerous for direct measurement by humans, a chimney remote monitoring system is installed to install a measuring device inside the chimney and transmit the data obtained from the measuring device to the central control station. The chimney remote monitoring system constantly monitors pollutant emissions by measuring air pollutant emission concentrations contained in the exhaust gas from the chimney and sending them online to the central control center.

In the chimney remote monitoring system, the measured values measured by the measuring instrument are transmitted to the management server of the central control center, and the management server monitors them.

However, chimneys are usually operated in various workplaces, and the management server of the central control center only monitors them, so it is not easy to regulate them even if there is an abnormality in the measured values measured in the measuring device or manipulate the measured values in the workplace. In other words, it is difficult to immediately regulate the state of the measuring device because there is no alternative except to visit and inspect the workplace directly.

The present invention is to solve the above problems, the present invention is to provide a technology that can be managed by remotely controlling the measuring device for measuring the exhaust gas of the chimney from the management server.

In order to achieve this object, the chimney remote monitoring system for remote control of the present invention, which is installed in the chimney, measures the pollutants contained in the gas discharged from the chimney and outputs the measured value signal and its own state signal. Measuring device; And a management server configured to receive signals about measured values and statuses measured by the one or more measuring devices, monitor the one or more measuring devices, and output a signal for controlling the one or more measuring devices. .

At this time, the signal output from the management server to the at least one measuring device, a signal for confirming the indication value of the measuring device by the standard exhaust gas, a signal for changing the user password of the at least one measuring device, the at least one measurement A signal for changing a device time, a signal for releasing all operations performed by the measuring device and switching to a sampling gas collecting state, a current instantaneous value of the one or more measuring devices, a signal for requesting status and alarm information of the measuring device, and Preferably, at least one of the signals for requesting the current password of the measuring device.

And collecting the measured value signal and the state signal of the measuring device from the at least one measuring device in real time to generate average data, transmitting the generated average data to the management server, and receiving the control signal output from the management server. It characterized in that it further comprises a data collector for transmitting to the at least one measuring device.

In this case, the signal output from the management server to the data collector is a signal for checking the constant set in the data collector, a signal for changing the user password of the data collector, a signal for modifying the time of the data collector, the The signal for releasing all operations performed by the data collector and switching to the data collection state, a signal for checking the version of the program installed in the data collector, and a signal for requesting average data and status and alarm information stored in the data collector. It is preferred that there is at least one.

In addition, the form of the signal of the at least one measuring device and data collection period is STX (start of sentence), data classification, measurement items, measurement date and time, measured value (before correction), the status of the measuring device, the number of status information of the measuring device, Status information of the measuring device, alarm information, ETX (end of sentence), CHK (error verification) and CR (end of packet) information can be included.

In addition, the 5-minute data collection signal between the data collector and the management server includes STX (start of sentence), report-ID, area code, business site code, outlet number, DCD, number of measurement items, measurement date and time, measurement items, and measurement values (after correction). ), Measured value (before correction), measuring device status, D / L status, calibration status, number of status information data, status information, alarm information, security code, ETX (end of sentence), CHK (error verification) and CR (packet) End) may be included. 30 minutes data collection signal excludes status and alarm information.

According to the present invention, by remotely controlling the measuring device installed in the chimney, it is possible to remotely check the operating state of the measuring device, even if it is incorrectly measured in the measuring device or the value set in the measuring device changes immediately It works.

In addition, by defining a protocol used for communication between the measuring device and the management server, there is an effect that can systematically manage and control the information collected from a plurality of measuring devices from a remote.

1 is a block diagram showing a chimney remote monitoring system using a digital communication of the present invention.
2 is a diagram illustrating a protocol format for transmitting and receiving information between a measuring device and a data collector of the present invention.
3 is a diagram illustrating a protocol form for transmitting and receiving information between a data collector and a management server of the present invention.

Preferred embodiments of the present invention will be described more specifically with reference to the accompanying drawings.

As illustrated in FIG. 1, the chimney remote monitoring system 100 for remote control of the present invention includes one or more measuring devices 110, a data collector 120, and a management server 130.

The measuring device 110 is installed in the chimney to measure in real time the various contaminants discharged from the chimney and correction items such as oxygen, flow rate and temperature in real time and outputs a signal for the measured measurement value as a digital signal. At this time, the pollutants measured by the measuring device 110 are dust, sulfur oxides, nitrogen oxides, carbon monoxide, hydrogen chloride, ammonia and hydrogen fluoride.

Therefore, although not shown in the drawing, the measuring device 110 is provided with a chamber for collecting the sample gas of the gas discharged from the chimney, and a lamp for measuring the contaminants in the collected sample gas is provided.

The data collector 120 receives, collects, and analyzes a digital signal measured and output by the measuring device 110 in real time. The data collector 120 stores the collected and analyzed data as average data for 5 minutes and 30 minutes, and transmits the stored average data to the management server 130. In this case, the data collector 120 collects a signal including the measured value and information on the state of the measuring device 110 from the measuring device 110 at least once every 5 seconds.

In addition, the data collector 120 transmits a signal transmitted from the management server 130 to the measuring device 110 to control the measuring device 110. And, if necessary, a plurality of data collectors 120 may be provided.

The management server 130 receives and analyzes the average data output from the data collector 120. Accordingly, the management server 130 may monitor whether the measurement device 110 is normally measured.

In addition, the management server 130 transmits a control command for controlling the measuring device 110 according to the monitoring result of the measuring device 110 to the measuring device 110 through the data collector 120. That is, when the measured value measured by the measuring device 110 is a normal value, and when the abnormal measuring value is measured by the measuring device 110, the control device for checking the state of the measuring device 110 may be measured. To the side.

At this time, the signal output from the management server 130 to the measuring device 110, the signal (ARES), the measurement device 110 to cancel the overall operation performed by the measuring device 110 and to switch to the sample gas collection and analysis state A signal requesting data stored in the measuring device 110, such as status information or alarm information of the signal (ADST), a signal (ACHK) requesting the current data to the measuring device 110, such as status information or alarm information of the filter A user password change signal APWD of the device 110, a time synchronization signal ASTM between the measurement device 110 and the data collector 120, and a current password request signal ADPW of the measurement device 110 are included.

The measuring device 110 and the data collector 120 transmit and receive data according to the protocol form shown in FIG. 2. Codes included in the measurement items are shown in Table 1.

code Item name code Item name TSP dust O2b Oxygen SO2 Sulfur dioxide FL1 Flow rate 1 NOS Nitrogen oxide FL2 Flow rate 2 HCL Hydrogen chloride TMP Temperature HFb Hydrogen fluoride TM1 Furnace Temperature 1 NH3 ammonia TM2 Furnace temperature 2 COb carbon monoxide ALL All items

And the code corresponding to the status information of the measuring device 110 of the protocol form is shown in Table 2, the alarm code generated by the measuring device 110 is shown in Table 3.

code Item name code Item name LTRS Light transmission percentage OFST offset MAXR Measurement range (maximum) SPAN Span gas value MINR Measurement range (minimum) ZERO Zero gas value CUCR Black Curve Slope CFAC Correction factor LITV Lamp intensity LVLV Lamp voltage CTMV Chamber temperature CPRV Chamber pressure SFLV Sample gas flow rate STMV Sample gas temperature SPRV Sample gas pressure NONE No item

code Item name code Item name STMP Sample gas temperature SFLW Sample gas flow rate VOVR Measurement range exceeded SPRS Sample gas pressure CTMP Chamber temperature CPRS Chamber pressure LITS Lamp intensity LVLT Lamp voltage NONE No item

In addition, the data collector 120 outputs the signal to the management server 130, the data collector 120 is transmitted in response to the result value confirmed by the remote search (RCHK) (RCKR), remote constant search command (CCHK) Various constant values (CNST) set in the), data collector 120 setting constants that are automatically transmitted to the management server 130 when changing and storing the various constants set in the data collector 120 and the current value when changing the password (CCNG) ), The data collector 120 program version information (DVER) transmitted in response to the program version check remote control command (CVER) from the management server 130, the real-time digital average value (5 minutes) and the state of the data collector 120 or Alarm information (RD05), real-time digital average value (30 minutes) set in the data collector 120 (RD30), digital average value (5 minutes) and data collector (120) transmitted in response to the remote dump command from the data collector 120 ) Status or alarm information (DD05), data collector (120) Digital average value (30 minutes) information transmitted in response to a remote dump command in the (DD30), digital average value (5 minutes) stored in the measuring device 110 and the status or alarm information (FD05) of the measuring device 110, measuring equipment The current digital instantaneous value of 110 and the state of the measuring device 110 or alarm information (RMCS), the current password of the measuring device 110 and the changed password (RMPW) and the like.

Here, the signal transmitted from the management server to the data collector 120, the remote search control command (RCHK) for confirming the measurement value of the measurement device 110 by the standard exhaust gas, the constant search control command set in the data collector 120 (CCHK), the user password change control command (SETP) of the data collector 120 and the measuring device 110, the control command (SETT) to modify the time of the data collector 120 by the time of the management server 130, measurement A control command (REST) for canceling all operations performed by the device 110 or the data collector 120 and switching to a state of collecting and collecting a sample gas, a transmission control command (DMPL) of a final result of remote search, and data Collector 120 program version check control command (CVER), average value and status stored in the data collector 120 and alarm information request control command (DPMA), 5 minutes average value and status and alarm information request control stored in the data collector 120 Command (DPMF), Data Collector (120) The stored 30-minute average value request control command (DPMH), the 5-minute average value and state stored in the measuring device 110 and the alarm information request control command (DPFM), the current instantaneous value and state of the measurement and the alarm information request control command (MCHK) and The current password request control command (MPWD) of the measuring device 110, cancellation of the remote command (MRST) transmitted to the measuring device, and the user password change (MSPW) of the measuring device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It should be understood that the scope of the present invention is to be understood as the scope of the following claims and their equivalents.

100: chimney remote monitoring system
110: measuring instrument 120: data collector
130: management server

Claims (6)

At least one measuring device installed in the chimney and measuring a pollutant contained in the gas discharged from the chimney and outputting a measured value signal and its status signal; And
Receiving a signal for the measured value and the state measured by the at least one measuring device to monitor the at least one measuring device, and comprises a management server for outputting a signal for controlling the at least one measuring device Chimney remote monitoring system for control. The method according to claim 1,
The signal output from the management server to the at least one measuring device, a signal for confirming the indication value of the measuring device by the standard exhaust gas, a signal for changing the user password of the at least one measuring device, the at least one measuring device time A signal for changing a signal, a signal for releasing all operations performed by the measuring device and switching to a sample gas collecting state, a current instantaneous value of the one or more measuring devices, a signal for requesting status and alarm information of the measuring device, and the measurement Chimney remote monitoring system for remote control, characterized in that any one or more of the signal requesting the current password of the device. The method according to claim 1,
Collecting the measured value signal and the status signal of the measuring device from the at least one measuring device in real time to generate average data, transmitting the generated average data to the management server, and receiving the control signal output from the management server Chimney remote monitoring system for remote control, characterized in that it further comprises a data collector for transmitting to the at least one measuring device. The method according to claim 3,
The signal output from the management server to the data collector is a signal for checking the constant set in the data collector, a signal for changing the user password of the data collector, a signal for correcting the time of the data collector, the data collector Is one or more of a signal for releasing all operations performed by the user and switching to a data collection state, a signal for checking a version of a program installed in the data collector, and a signal for requesting average data and status and alarm information stored in the data collector. Chimney remote monitoring system for remote control, characterized in that. The method according to claim 3,
The signal format of the at least one measuring device and data collection period is STX (start of sentence), data classification, measurement items, measurement date and time, measured value (before correction), the status of the measuring device, the number of measuring device status information, measuring device Chimney remote monitoring system for remote control, characterized in that the status information, alarm information data, ETX (end of sentence), CHK (error verification) and CR (packet end) information. The method according to claim 3,
The 5-minute data collection signal transmitted between the data collector and the management server includes STX (start of sentence), report-ID, area code, business site code, outlet number, DCD, number of measurement items, measurement date and time, measurement items and measured values (after correction). ), Measured value (before correction), measuring device status, D / L status, calibration status, number of status information data, status information, alarm information, security code, ETX (end of sentence), CHK (error verification) and CR (packet) Chimney remote monitoring system for a remote control, characterized in that it is included.

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