KR102472599B1 - System for operating automatically control unit - Google Patents

Abstract

The present invention relates to an automatic control device operating system. According to the present invention, the environment inside the panel of the automatic control device is continuously monitored and the normal operating range is maintained through an environment control device. When an abnormality occurs, it is immediately notified to a manager terminal so that prompt on-site action is possible. By predicting malfunctions through the learning process through data analysis, special operation is performed, and safe operation of the entire facility can be expected.

Description

Automatic control device operating system {System for operating automatically control unit}

The present invention relates to an automatic control device operating system, and more particularly, to a technology for enabling an automatic control device to be operated in an appropriate environment, predicting malfunctions due to environmental changes, and enabling rapid response.

With the development of automation technology for various facilities, control devices such as PLC (Programmable Logic Controller) and DDC (Direct Digital Control) are installed in the field, and the facility can be controlled and operated with built-in control logic and remote control. . These control devices are installed indoors or outdoors depending on the target facility, and are protected through a rectangular enclosure (panel) made of steel.

However, if the control device is operated for a long time, the temperature or humidity rapidly changes according to the heat generated from various electric components and the change in the external environment. can

To this end, a fan is installed in the panel to ensure forced ventilation, or a thermostat is used to automatically control the temperature. However, simply by operating the fan or thermostat according to the temperature change, it is not possible to determine the cause of malfunction or failure of the control device, and thus, long-term management is difficult.

On the other hand, as a prior art related to the temperature control of the control device, there is Republic of Korea Patent Publication No. 10-2018-0130893 (2018.12.10. 'Temperature and humidity optimization system inside the PLC panel').

The present invention has been devised to solve the problems of the prior art as described above, enabling an automatic control device to be operated in an appropriate environment and enabling rapid response by analyzing information on the operating environment and predicting malfunctions. Its purpose is to provide

An automatic control device operation system according to the present invention for achieving the above object includes an automatic control device that performs a preset basic function; and an operation server that monitors the state of the automatic control device and provides guide information to a manager terminal, wherein the automatic control device includes: a communication unit that connects the operation server and a communication channel and transmits and receives information; A basic function control unit that performs basic functions according to a preset bar; a sensing information acquisition unit that acquires sensing information about the environment inside the panel; an environmental control device for adjusting an environmental condition inside the panel; and the sensing information acquired by the sensing information acquisition unit is analyzed to operate the environment control device, or the sensing information acquired by the sensing information acquisition unit, the basic function control unit and the environment control device are directed to the operation server through the communication unit. and an environment management unit that transmits and processes operating state information about the sensing information and environment state information about the result of analyzing the sensing information, wherein the operation server connects a communication channel with the automatic control device and transmits and receives information. ; a storage means for storing sensing information, operating state information, and environment state information received from the automatic control device; an analyzer that analyzes a cause of failure through the sensing information, operating state information, and environmental state information; and an environment management and operation unit that provides guidance information on the cause of the failure analyzed by the analysis unit or the environmental state information received from the automatic control device to the manager terminal.

Here, when a malfunction is predicted through the analysis of the sensing information in the analyzer of the operation server, the recovery time is predicted through the analysis of the operating state information on the environmental control device, and the environment management operation unit is set in the basic function control unit. The basic operation driving time is checked, and if it is confirmed that the recovery time predicted by the analysis unit is later than the checked basic operation driving time, a special driving command is generated to execute the basic function before the basic operation driving time, and the automatic control is performed. can be transmitted to the device side.

In addition, when a malfunction is predicted through the analysis of the sensing information in the analysis unit of the operation server, the environment management and operation unit transmits guidance information on prediction of malfunction to the manager terminal, and arrival time information returned from the manager terminal. and check the basic operation driving time set in the basic function control unit, and if the arrival time returned from the manager terminal is later than the basic operation driving time, create a special driving command to execute the basic function before the basic operation driving time and can be transmitted to the automatic control device.

According to the automatic control device operating system according to the present invention, the environment inside the panel of the automatic control device is constantly monitored and the normal operating range is maintained through the environmental control device, but when an abnormal condition (caution, warning) occurs, the operation server immediately By making the notification to the manager terminal through, it is possible to ensure that prompt on-site action by the manager is made.

In addition, rather than simply maintaining the environment, it identifies the cause of failure by accumulating and storing sensing information on the internal environment of the panel of the automatic control device, operating status information of the basic function control unit, and environmental status information consisting of three stages (normal, caution, warning). After predicting malfunctions through learning of existing data, safe operation of the entire facility can be expected by allowing important basic functions to be executed in advance through special operation commands before malfunctions occur.

1 is a diagram for explaining an automatic control device operating system according to an embodiment of the present invention.
Figure 2 is a block diagram for explaining the detailed configuration of the automatic control device operating system shown in Figure 1;
3 to 5 are flowcharts illustrating a method of operating an automatic control device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, some configurations irrelevant to the gist of the present invention will be omitted or compressed, but the omitted configurations are not necessarily unnecessary in the present invention, and can be combined and used by those skilled in the art to which the present invention belongs. can

In addition, each component, server, and system to be described below do not necessarily consist of independent components or servers that perform each function, and are implemented as one or more programs, one or more servers, or a set of one or more systems, or are part of It is revealed that it may be shared.

1 is a diagram for explaining an automatic control device operating system according to an embodiment of the present invention, and FIG. 2 is a block diagram for explaining the detailed configuration of the automatic control device operating system shown in FIG. 1 and 2, the automatic control device 100 operation system according to an embodiment of the present invention includes an automatic control device 100 and an operation server 200.

The automatic control device 100 refers to a device that measures various signals and controls the operation of electric parts or valves in a factory or water treatment facility, etc., in one place. The automatic control device 100 includes a power supply unit 110, a communication unit 120, a control unit 130, a sensing unit 140, an environment control unit 150, and a status output unit 160, and an account control unit. The internal components of are protected by being installed in the panel 170, which is an enclosure made of iron.

The power supply unit 110 is provided to supply power necessary for the communication unit 120, the control unit 130, the sensing unit 140, the environment control device 150, and the status output unit 160, and the communication unit 120 It is provided to connect the operation server 200 and a communication channel and transmit and receive necessary information.

The control unit 130 is provided to control basic functions according to the original purpose of the automatic control device 100 or to perform control for temperature management. This control unit 130 includes a basic function control unit 131 and an environment management control unit 132. Depending on the implementation, the controller 130 may be designed in a Programmable Logic Controller (PLC) or Direct Digital Control (DDC) method.

The basic function control unit 131 performs basic functions of the automatic control device 100 according to pre-programming. For example, the basic function control unit 131 performs an operation of turning on/off a switch or opening/closing a valve according to measurements measured through various measuring units (not shown) or according to a set time. Settings of the basic function control unit 131 may be installed in advance or may be received and updated from the operation server 200 . In addition, the basic function control unit 131 may perform real-time operation control according to a special driving command received from the operation server 200 .

The environment management control unit 132 is provided to store and analyze sensing information acquired through the sensing unit 140 and to perform environment management control in response to environmental changes. The environment management control unit 132 includes a sensing information acquisition unit 133, a storage unit 134, and an environment management unit 135.

The sensing information acquisition unit 133 is provided to acquire sensing information such as temperature or humidity measured by the sensing unit 140 in real time, and the storage unit 134 is the sensing information acquired by the sensing information acquisition unit 133. It is provided to store or store the operating state of the basic function control unit 131 and the operating state of the environmental control device 150.

The environment management unit 135 analyzes the sensing information obtained through the sensing information acquisition unit 133 and is provided to control the operation of the environment control device 150 or the status output unit 160 . In addition, the environment management unit 135 includes the sensing information acquired through the sensing information acquisition unit 133, the operation state information of the basic function control unit 131 and the environment control device 150, and the environment state information according to the analysis result (normal status, attention status, warning status) is transmitted to the operation server 200 side.

The sensing unit 140 is installed at one or a plurality of points within the panel 170 to measure sensing information. For example, the sensing unit 140 may include a temperature sensor 141 and a humidity sensor 142 .

The environmental control device 150 refers to a device capable of adjusting environmental conditions such as temperature or humidity inside the panel 170 . For example, a fan, a thermostat, a heater, and the like may be installed as the environmental control device 150 .

The state output unit 160 refers to a device that displays and informs the state of the inside of the panel 170 . For example, as the status output unit 160, a warning light that blinks light of a specific color to display the status, a speaker that displays the status with sound, a display that displays the status through text or images, and the like can be used. The output contents of the state output unit 160 are controlled by the environment management unit 135 .

The panel 170 refers to an enclosure that protects the rest of the components of the automatic control device 100, and a ventilation hole is formed at a certain point on the side of the panel 170.

The operation server 200 remotely monitors the state of the automatic control device 100, provides abnormal state information to the manager terminal 300 when necessary, and is provided to ensure that the automatic control device 100 is specially driven. . This operation server 200 includes a communication means 210, a storage means 220 and a control means 230.

The communication means 210 is provided to connect the automatic control device 100 and a communication channel and transmit and receive necessary information.

The storage means 220 is provided to store the sensing information received from the automatic control device 100 through the communication means 210 and the operating state information of the basic function control unit 131 and the environment control device 150. In addition, the storage unit 220 may store information such as basic operation driving time set in the basic function control unit 131 of the automatic control device 100 .

The control means 230 analyzes the information received in real time from the automatic control device 100 through the communication means 210 or the information stored in the storage means 220 to generate guide information toward the manager terminal 300. provided, or provided to transmit a control command to the automatic control device 100. This control means 230 includes a basic function control means 231 and an environment management control means 232.

The basic function control means 231 is provided to set or change basic functions performed by the basic function control unit 131 of the automatic control device 100. That is, the basic function control unit 131 of the automatic control device 100 performs operations according to a preset program, but the settings may be changed under the control of the basic function control unit 231 of the operation server 200.

The environment management control means 232 comprehensively analyzes the sensing information, operating state information, and environmental state information received from the automatic control device 100 and stored in the storage means 220 to identify the cause of failure or predict malfunction, , It is prepared to notify the manager terminal 300 side or deliver a special driving command when an abnormal condition occurs. This environment management control means 232 includes an analysis unit 233 and an environment management operation unit 234.

The analysis unit 233 analyzes the sensing information, operating state information, and environmental state information received from the automatic control device 100 to determine the cause of failure or predict malfunction.

The environment management operation unit 234 generates guide information to be transmitted to the manager terminal 300 according to the analysis result of the analysis unit 233, or extracts and transmits web information to be provided according to the request of the manager terminal 300, It is provided to generate a special driving command and transmit it to the automatic control device 100 when a malfunction is predicted.

The manager terminal 300 is a terminal used by a person who manages the automatic control device 100, monitors the state of the automatic control device 100 through the manager terminal 300, or receives a push notification when an abnormal condition occurs. Correspondingly, or a function control command may be input remotely through the manager terminal 300 .

The automatic control device operation system according to the embodiment of the present invention described above will be further embodied through the description of the automatic control device operating method described with reference to FIGS. 3 to 5 below.

3 is a flowchart illustrating a process of operating the environmental control device 150 and notifying an abnormal state through analysis of sensing information in an automatic control device operation method according to an embodiment of the present invention.

First, the basic function controller 131 of the automatic control device 100 performs the basic functions of the automatic control device 100 according to preset programming <S305>. For example, the basic function control unit 131 turns on/off a switch or performs an opening/closing operation of a valve according to measurements through various measuring units (not shown) or according to a set time.

When the parts of the automatic control device 100 installed in the panel 170 are continuously operated in this way, heat is generated by itself and the temperature inside the panel 170 rises. Of course, environmental factors inside the panel 170 are changed not only by self-generated heat, but also by temperature or humidity outside the panel 170 . However, since the automatic control device 100 can perform optimal operation under an appropriate operating environment, environmental information such as temperature or humidity inside the panel 170 needs to be continuously monitored.

That is, when the sensing unit 140 such as the temperature sensor 141 and the humidity sensor 142 measures sensing information, and the sensing information acquisition unit 133 acquires the sensing information measured by the sensing unit 140, the storage unit ( 134) is stored in <S310>. Acquisition and storage of sensing information proceeds steadily at regular time intervals.

Meanwhile, the environment management unit 135 analyzes the sensing information acquired by the sensing information acquisition unit 133 and stored in the storage unit 134 <S315> to check whether the sensing information is maintained within a normal range <S320>. If the sensing information is within the normal range, the basic function is continuously performed. On the other hand, if it is confirmed that the sensing information is out of the normal range <S320>, the environment management unit 135 operates the environment control device 150 <S325>, outputs an abnormal state through the status output unit 160, and at the same time the communication unit Through (120), the operation server 200 is notified of the abnormal state information <S330>.

A process of operating the environmental control device 150 through analysis of sensing information and notifying a manager will be described through an example.

A standard operating range is preset in the storage unit 134 of the automatic control device 100 . For example, 0 degrees Celsius to 40 degrees Celsius is the normal operating range, -10 degrees to 0 degrees or 40 to 50 degrees is the caution operating range, and -10 degrees or less or 50 degrees or more is the warning operating range. will be.

After that, if it is confirmed that the temperature in the panel 170 is 0 to 40 degrees as a result of analysis by the environment management unit 135, the environment control device 150 or the status output unit 160 is not particularly operated.

On the other hand, if the analysis result of the environmental management unit 135 confirms that the temperature within the panel 170 is -10 to 0 degrees or 40 to 50 degrees, the environmental management unit 135 operates the environmental control device 150 to control the temperature. make it happen For example, cooling or heating is performed by operating a fan or heater.

In addition, if it is confirmed that the temperature within the panel 170 is -10 degrees or less or 50 degrees or more as a result of analysis by the environment management unit 135, the environment management unit 135 increases the driving level of the fan or heater.

Meanwhile, the environment management unit 135 outputs environment status information through the status output unit 160 according to the sensing information analysis result. For example, depending on whether the temperature range within the panel 170 is a normal operating range, a caution operating range, or a warning operating range, lights of different colors are turned on through warning lights, voice alarms are made through speakers, or the display is turned on. Through this, the current environment status information is output.

In addition, the environment management unit 135 transmits the analysis result, that is, environmental state information, to the operation server 200 through the communication unit 120, and the environment management operation unit 234 of the operation server 200 automatically controls the device 100. When it is confirmed that the abnormal state (caution, warning) is obtained through the environmental state information received from the controller, guide information is generated and transmitted to the manager terminal 300. Accordingly, a push message is output from the manager terminal 300 to check the abnormal state of the automatic control device 100, and the manager can quickly take action.

Meanwhile, although the example of the temperature range has been described above, the reference operating range for humidity is set in advance in the storage unit 134, and the environment management unit 135 responds to the information obtained through the humidity sensor 142. The control device 150 or the status output unit 160 may be driven.

4 is a diagram for explaining a method of operating an automatic control device according to another embodiment of the present invention. That is, the environment management control unit 232 of the operation server 200 analyzes the information received from the automatic control device 100 to determine the cause of the failure, predicts a future malfunction, and executes a special driving command.

First, the analysis unit 233 of the operation server 200 is received from the automatic control device 100 through the communication means 210 and stored in the storage means 220, the sensing information, operating state information and environmental state information comprehensively By analyzing, the cause of failure of the automatic control device 100 is analyzed.

For example, when the temperature in the panel 170 is operated for 120 minutes in a 'warning operation range' state of 50 degrees or more, as a result of checking the operation state information of the basic function control unit 131, there may be a history of malfunction. The analysis unit ( 233) can learn the accumulated information of such sensing information, operating state information, and environmental state information to determine the cause of failure, and can predict malfunction when similar pattern of sensing information is confirmed later.

That is, if the current panel 170 operates for 90 minutes in a warning operating range state where the temperature within the panel 170 is 50 degrees or higher, the analysis unit 233 predicts that a malfunction will occur 30 minutes later through the past learning result.

If the analysis unit 233 predicts the malfunction through the analysis of the sensing information in this way <S405>, the recovery time is additionally predicted and the environment management operation unit 234 checks the basic operation driving time <S410>. Recovery time prediction is to predict the time to naturally recover to the normal operating range due to the operation of the environmental control device (150). For example, the analysis unit 233 has a result of learning that the temperature drops by several degrees per 10 minutes when the fan is operated at a specific level through checking the operating state information of the environmental control device 150 received from the automatic control device 100. Through this, it is possible to predict the time to reach the operating range of 50 degrees or less, that is, the recovery time, through the current temperature in the panel 170, the driving level of the fan, and the driving time.

In addition, the environment management operation unit 234 checks the basic operation driving time through the storage means 220 . The basic operation driving time refers to information on a preset time for the basic function controller 131 of the automatic control device 100 to drive a specific switch or valve.

In this way, as a result of predicting the recovery time in the analysis unit 233 and confirming the basic operation driving time in the environment management operation unit 234 <S410>, if the predicted recovery time is faster than the confirmed basic operation driving time, no action is taken. don't That is, since the basic function control unit 131 will be restored before the time to operate, it will be possible to perform the basic function correctly without taking any special measures.

On the other hand, if the predicted recovery time is later than the confirmed basic operation driving time, the environment management operation unit 234 generates a special driving command and transmits it to the automatic control device 100 through the communication means 210 <S415>, The basic function control unit 131 of the automatic control device 100 causes the special driving command to be executed <S420>.

Special driving means that the basic function control unit 131 of the automatic control device 100 does not operate a switch or valve according to a preset condition, but is arbitrarily driven according to a special driving command transmitted from the operation server 200. say Assume, for example, that the basic function controller 131 operates to open a valve at 09:00. However, as of 08:40, as a result of the analysis of the sensing information of the analysis unit 233, if it is confirmed that the environmental condition of the warning operation range of 50 degrees or more is maintained from 06:55, the basic time from 08:55, which reaches 120 minutes, It is predicted that the function control unit 131 will malfunction. In addition, the analyzer 233 may predict (recovery time prediction) whether the temperature can be lowered to the operating range of the state by 09:00 through the history of the fan operating from 08:05. If it is predicted that recovery will be done before 09:00, which is the basic operating time, no special driving command is required.

On the other hand, if it is confirmed that recovery will not be made until 09:00, which is the basic operating time, in a state in which malfunction is predicted from 08:55, the environmental management operation unit 234 performs an operation to open the valve in advance at 08:50. A special drive command to be executed is generated and transmitted to the automatic controller 100 through the communication means 210 so that the basic function control unit 131 executes the valve drive operation at 08:50.

According to the process shown in FIG. 4, the basic function control unit 131 of the automatic control device 100 should perform important basic functions at a set time, but it was expected that it would be impossible to perform important basic functions at a set time due to a malfunction. When this occurs, the safe operation of the facility can be promoted by ensuring that important basic functions are performed in advance before malfunction occurs.

5 is a diagram for explaining a method of operating an automatic control device according to another embodiment of the present invention. That is, after the environment management control means 232 of the operation server 200 analyzes the information received from the automatic control device 100 to determine the cause of the failure and predicts future malfunctions, whether it is possible to take on-site measures by the manager. This is about the process of executing a special drive command after figuring it out.

First, the analysis unit 233 of the operation server 200 analyzes the cause of the failure through the sensing information, operating state information, and environmental state information received from the automatic control device 100, and predicts the malfunction <S505>. Since the description of this has been described in detail through the description of FIG. 4, duplicate descriptions will be omitted.

Thereafter, the environment management operation unit 234 transmits guidance information to the manager terminal 300 to inform that a malfunction of the automatic control device 100 has been predicted, and returns from the manager terminal 300 whether it is possible to arrive at the site before the malfunction occurs. <S510> Receive. For example, when a malfunction is predicted from 08:55, the environment management operation unit 234 transmits guidance information to the manager terminal 300, including a screen interface for querying the manager's arrival time at the site, and checks the returned information. do.

If a reply is received from the manager terminal 300 that it is possible to arrive at the site before 08:55, the environment management and operation unit 234 does not take any action. On the other hand, if a reply is received from the manager terminal 300 that it is possible to arrive at the site after 08:55, the environment management operation unit 234 checks the basic operation driving time through the storage means 220 <S515>. For example, the environmental management operation unit 234 may check the basic operation operation time at 09:00 to execute the valve opening operation.

Thereafter, the environment management operation unit 234 checks whether the manager's arrival time at the site is later than the basic operation driving time. If the manager's on-site arrival time is earlier than the basic operation start time, no action is taken. On the other hand, if it is confirmed that the manager's arrival time at the site is later than the basic operation driving time, the environmental management operation unit 234 generates a special driving command and transmits it to the automatic control device 100 through the communication means 210 <S515> , the special driving command is executed in the basic function control unit 131 of the automatic control device 100 <S520>.

For example, if the malfunction prediction time is 08:55, the basic operation operation time is 09:00, and the manager's on-site arrival time is 09:05, the environmental management operation unit 234 opens the valve in advance at 08:50. A special drive command to perform this operation is generated and transmitted to the automatic controller 100 through the communication means 210 so that the basic function control unit 131 executes the valve drive operation at 08:50.

According to the process shown in FIG. 5, the basic function control unit 131 of the automatic control device 100 should perform an important basic function at a set time, but it was expected that it would be impossible to perform an important basic function at a set time due to a malfunction. When the manager arrives at the site before the basic operating time and action is possible, no action is taken, and if the manager arrives late, the safety operation of the facility can be promoted by ensuring that important basic functions are performed in advance before malfunction occurs. have.

As described in detail above, according to the automatic control device operation system and method according to the present invention, the internal environment of the panel 170 of the automatic control device 100 is continuously monitored and the normal operating range is maintained through the environment control device 150. To be maintained, but when an abnormal state (caution, warning) occurs, it is immediately notified to the manager terminal 300 through the operation server 200, so that prompt on-site action by the manager can be made.

In addition, it does not stop at simply maintaining the environment, but the sensing information for the internal environment of the panel 170 of the automatic control device 100, the operating status information of the basic function control unit 131, and the environmental status consisting of three stages (normal, caution, warning) After identifying the cause of failure by accumulating and storing information, it is possible to inform the manager, and after predicting malfunction through learning of existing data, important basic functions can be executed in advance through special operation commands before malfunction occurs. Safe operation can be expected.

The preferred embodiment of the present invention described above has been disclosed for illustrative purposes, and various modifications, changes and additions will be possible to those skilled in the art with ordinary knowledge of the present invention within the spirit and scope of the present invention, and such modifications and changes and additions should be considered to fall within the scope of the claims of the present invention.

100: automatic control device
110: power supply
120: communication department
130: control unit
131: basic function control unit
132: environment management control unit
133: sensing information acquisition unit
134: storage unit
135: Environmental Management Department
140: sensing unit
141: temperature sensor
142: humidity sensor
150: environmental control device
160: state output unit
170: panel
200: operation server
210: means of communication
220: storage means
230: control means
231: basic function control means
232: environmental management control means
233: analysis unit
234: Environmental Management and Operation Department
300: manager terminal

Claims (3)

Automatic control device that performs a preset basic function; and
An operation server that monitors the state of the automatic control device and provides guidance information to the manager terminal;
The automatic control device,
a communication unit for connecting a communication channel with the operation server and transmitting and receiving information;
A basic function control unit that performs basic functions according to a preset bar;
a sensing information acquisition unit that acquires sensing information about the environment inside the panel;
an environmental control device for controlling an environmental condition inside the panel; and
The sensing information obtained from the sensing information acquisition unit is analyzed to operate the environment control device, or the sensing information obtained from the sensing information acquisition unit is sent to the operation server side through the communication unit, and the basic function control unit and the environment control device are An environment management unit for transmitting and processing operating state information about the sensor and environment state information about the result of analyzing the sensing information;
The operation server,
communication means for connecting a communication channel with the automatic control device and transmitting and receiving information;
a storage means for storing sensing information, operating state information, and environmental state information received from the automatic control device;
an analyzer that analyzes a cause of failure through the sensing information, operating state information, and environmental state information; and
An environment management and operation unit for providing guidance information on the cause of the failure analyzed by the analysis unit or the environmental status information received from the automatic control device to the manager terminal;
The environment management unit transmits and processes step-by-step environmental state information of normal, caution, and warning to the operation server,
When a malfunction is predicted through the analysis of the sensing information in the analyzer of the operation server, the recovery time is predicted through the analysis of the operating state information on the environmental control device, and the environment management and operation unit predicts the basic operation set in the basic function control unit. The driving time is checked, and if it is confirmed that the recovery time predicted by the analysis unit is later than the confirmed basic operation driving time, a special driving command is generated to execute the basic function before the basic operation driving time and sent to the automatic control device. An automatic control device operating system, characterized in that for transmission.
Automatic control device that performs a preset basic function; and
An operation server that monitors the state of the automatic control device and provides guidance information to the manager terminal;
The automatic control device,
a communication unit for connecting a communication channel with the operation server and transmitting and receiving information;
A basic function control unit that performs basic functions according to a preset bar;
a sensing information acquisition unit that acquires sensing information about the environment inside the panel;
an environmental control device for controlling an environmental condition inside the panel; and
The sensing information obtained from the sensing information acquisition unit is analyzed to operate the environment control device, or the sensing information obtained from the sensing information acquisition unit is sent to the operation server side through the communication unit, and the basic function control unit and the environment control device are An environment management unit for transmitting and processing operating state information about the sensor and environment state information about the result of analyzing the sensing information;
The operation server,
communication means for connecting a communication channel with the automatic control device and transmitting and receiving information;
a storage means for storing sensing information, operating state information, and environmental state information received from the automatic control device;
an analyzer that analyzes a cause of failure through the sensing information, operating state information, and environmental state information; and
An environment management and operation unit for providing guidance information on the cause of the failure analyzed by the analysis unit or the environmental status information received from the automatic control device to the manager terminal;
The environment management unit transmits and processes step-by-step environmental state information of normal, caution, and warning to the operation server,
When a malfunction is predicted by the analysis unit of the operation server through the analysis of the sensing information, the environment management and operation unit transmits guidance information on prediction of malfunction to the manager terminal, and the on-site arrival time information returned from the manager terminal and the above Check the basic operation driving time set in the basic function control unit, and if the arrival time returned from the manager terminal is later than the basic operation driving time, create a special driving command to execute the basic function before the basic operation driving time. Automatic control device operation system, characterized in that for transmission to the automatic control device side.
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