KR101883672B1 - Human Machine Interface System capable of Safety Monitoring - Google Patents

Abstract

The present invention relates to an HMI system connected to an external device including at least a PLC and includes an operation information collecting unit for collecting operation environment information by communicating with an external device, And a driving control unit for operating the vehicle in a safe mode according to a determination result. PLC, it is possible to prevent the occurrence of time out or system down due to internal / external factors. Therefore, The entire system can be operated safely.

Description

[0001] The present invention relates to an HMI system capable of safety monitoring,

The present invention relates to an HMI system, and more particularly, an HMI system connected to an external device including at least a PLC, monitors the operation environment and can operate more safely based on the result.

Currently, programmable logic controllers (PLCs) are used in various industrial fields such as factories, ships, buildings, and the like. In this connection, an HMI (Human Machine Interface) system is employed for interfacing with users.

The HMI system can be connected to various external devices such as cameras and media devices as well as PLCs. It also provides enhanced services by allowing users to visually display information and control external devices.

On the other hand, since PLC is an industrial control device unlike general household products, it must operate in a harsh environment.

As an example, the ship monitoring system grasps the ship's strength, resilience calculation, loading condition, etc. by measuring the degree of seawater in the ballast tank. In order to monitor the physical characteristics inside the refrigeration / Is used. At this time, the operating condition of the PLC is influenced by external environment or conditions such as temperature, humidity, and vibration intensity.

However, it has not been easy to confirm whether the HMI system and various devices are operating well in a poor working environment.

For example, there has been an inconvenience in that the operator always has to monitor the facilities at the worksite in order to know whether there is room for time out or system down due to internal / external environmental factors.

In addition, since the entire HMI system may become unstable during long operation, it is difficult to use the product for a long time, and it takes a lot of time and money to perform error analysis and system restart due to a short mechanical fault.

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an HMI system that can operate safely on the basis of a monitored operating condition, prevent malfunctions and accidents in advance, The purpose of this report is to enable the safe response of

In order to achieve the above object, an HMI system capable of safety monitoring according to the present invention includes: an operation information collecting unit for collecting operation environment information by communicating with an external device including at least a PLC; A driving mode determination unit for determining whether operation in a safe mode is necessary based on operating environment information collected through the operation information collecting unit; And a driving control unit for operating in a safe mode according to a result of the determination by the driving mode determination unit.

The operation mode determination unit determines that the operation in the safe mode is necessary when the operation environment of the external device is out of the predetermined normal operation range or it is determined that operation in the safety mode is necessary in accordance with the time out frequency Mode can be judged to be necessary.

The operation control unit may process the operation in the safe mode in such a manner as to reduce the workload of the external device according to a predetermined priority.

The operation control unit may output an alert window according to a result of the determination by the operation mode determination unit to receive a response as to whether to enter the safe mode.

According to the present invention, the HMI system determines the operation state based on the operation environment information collected from various external devices connected to the PLC, etc., and performs the operation in the safe mode when the safe operation is interrupted .

Accordingly, it is possible to prevent the occurrence of a timeout or a system down due to internal / external factors, and the operation efficiency of the industrial automation equipment can be maximized by operating the entire system safely.

1 shows an embodiment of an HMI system capable of safety monitoring according to the present invention,
FIG. 2 is a detailed view of an embodiment of an HMI system capable of safety monitoring according to the present invention,
3 is a diagram illustrating an operation related to the safe mode operation of the HMI control unit,
4 is an example of an alarm window to be output to the user.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, an HMI system 10 (hereinafter referred to as an HMI system) capable of safety monitoring according to the present invention can be connected to various external devices.

As an external device, at least a PLC (Programmable Logic Controller) 18 is included, and as an external device other than the above, an image photographing device 19 for photographing the situation of an industrial site in real time can be used.

The HMI system 10 may be configured in various ways as required. However, the HMI system 10 includes the operation information collecting unit 11, the operation mode determining unit 12, and the operation control unit 13 according to the present invention.

The operation information collecting unit 11 communicates with external devices such as the PLC 18 and the image photographing apparatus 19 to collect various operation environment information.

The information collected by the operation information collecting unit 11 is not limited such as self information of the external apparatus, peripheral information of the external apparatus, and self information of the HMI system.

Examples include temperature, humidity, vibration status, memory occupancy, CPU (Central Processing Unit) status, frequency of time-out occurring when communicating with the PLC 18, and the like.

The operation mode determination unit 12 determines whether operation in the safe mode is necessary based on the operation environment information collected through the operation information collection unit 11.

The method of determining whether operation in the safe mode is necessary may be variously configured according to the type of collected information.

As one example, the operation mode determination unit 12 checks whether the operating environment of the external device is within a predetermined normal operation range. If it is determined that the external environment is out of the prescribed normal operation range, It is possible to judge that the operation of

A reference value (a range specified as safe operation is possible) related to each operation environment information collected such as temperature, humidity, vibration state, memory occupancy rate, CPU state, and the like are set, It can be checked whether the information has deviated from the range.

As another example, when the information collected by the operation information collecting unit 11 is a time out frequency that appears during communication with the PLC 18, a reference value (e.g., 5 times) is set for the time out frequency, It is possible to check whether the time-out frequency value collected by the information collecting unit 11 has deviated from the range.

The operation control unit 13 processes the operation mode to be operated in the safe mode according to the determination result of the operation mode determination unit 12. [

Operation in the safe mode is to operate in such a way as to prevent a critical situation such as a system failure in a state outside the normal level. The operation mode in the safety mode can be variously configured as needed.

As an example, the operation in the safe mode can be handled in a manner that reduces the workload of the HMI system 10 or the external devices 18, 19 according to a predetermined priority. That is, the order of important external devices or the sequence of important PLC modules can be set, and the operation of devices with lower priority can be sequentially restricted until the operation state enters the normal range.

In addition, it is also possible to limit the operation of the remaining devices, to limit the operation of the remaining devices, or to stop only the devices in which the abnormality occurs, such as the PLC module in which a timeout occurs in communication.

The operation control unit 13 may be operated to operate in the safe mode immediately according to the determination result of the operation mode determination unit 12, or may output a warning window on the screen and receive a response from the user.

Referring to FIG. 2, a specific embodiment of the HMI system according to the present invention will be described.

The HMI system 10 receives the real time image information from the image capturing device 19 via the first communication unit 21 and communicates with the PLC 18 via the second communication unit 22 and the third communication unit 23, And receives the image recorded in advance from the image storage device 17 through the interface.

The real-time image information received through the first communication unit 21, the real-time monitoring / control data received via the second communication unit 22, and the recorded image information received through the third communication unit 23 are transmitted to the HMI control unit 24 .

The HMI control unit 24 collectively controls the HMI function and edits various kinds of information received through the first communication unit 21, the second communication unit 22 and the third communication unit 23, 25).

For example, the data received from the PLC 18 is visually processed according to the setting of the user so as to be displayed in a format easy for the user to grasp, and the image information received from the image photographing apparatus 19 or the image storing apparatus 17 is displayed .

In other words, data information and video are displayed on the HMI screen, allowing users to monitor and control them comprehensively.

The HMI control unit 24 also transmits monitoring / control data for the PLC 18 via the second communication unit 22 in accordance with the user's instruction.

The HMI control unit 24 may be configured to perform the functions of the operation information collection unit 11, the operation mode determination unit 12, and the operation control unit 13.

The operation of the HMI control unit 24 relating to safety monitoring will be described with reference to FIG.

When the status monitoring starts (S31), information on the internal / external operating environment is collected through the operation information collecting unit 11 (S32), and the operation mode determining unit 12 It is determined whether operation in the safe mode is necessary (S33).

If it is determined that an abnormal situation has occurred and it is determined that the operation in the safe mode is required (S34), the operation is controlled to operate in the safe mode through the operation control unit 13 (S35) , And ends the status monitoring process (S36).

At this time, the operation in the safe mode in step S35 can be processed in various ways such as reducing the workload according to the predetermined priority as described above.

FIG. 4 shows an example of an alarm window. When it is determined in step S34 that operation in the safe mode is necessary, the HMI control unit 24 outputs an alarm window 40 to the display device 25 to inform the user.

FIG. 4 shows that the timeout has occurred five times during the PLC communication, and includes a 'safe mode operation' button 41 for inquiring whether to enter the safe mode. When the user clicks the button 41, the HMI control unit 24 enters the safe mode through the operation control unit 13 only.

It is to be understood that the present invention is not limited to the above-described embodiment, and that various changes and modifications may be made by those skilled in the art without departing from the technical spirit of the present invention. to be.

10: HMI system 11: Operation information collecting section
12: Operation mode determination section 13: Operation control section
17: Image storage device 18: PLC
19: image capturing device 21: first communication unit
22: second communication unit 23: third communication unit
24: HMI controller 25: Display device
40: warning window

Claims (5)

An operation information collecting part for collecting operation environment information by communicating with an external device including a PLC (Programmable Logic Controller), a video photographing device, and an image storing device; A driving mode determination unit for determining whether operation in a safe mode is necessary based on operating environment information collected through the operation information collecting unit; And an operation controller configured to operate in a safe mode according to the determination result of the operation mode determination unit;
A first communication unit for receiving image information in real time from the image photographing apparatus;
A second communication unit for receiving real-time monitoring / control data from the PLC;
A third communication unit for receiving the recorded image from the image storage device; And
A display device,
The HMI control unit edits the real-time image information received through the first communication unit, the monitoring / control data received through the second communication unit, and the image received through the third communication unit, Monitorable HMI system. The method according to claim 1,
Wherein the operation mode determination unit determines that operation in a safe mode is required when the operation environment of the external device is out of a predetermined normal operation range. The method according to claim 1,
Wherein the operation mode determination unit determines that operation in a safe mode is required according to a timeout frequency that appears during communication with the PLC. The method according to claim 1,
Wherein the operation control unit processes the operation in the safe mode in such a manner that the workload of the external device is reduced according to a predetermined priority. The method according to claim 1,
Wherein the operation control unit outputs an alarm window according to the determination result of the operation mode determination unit and receives a response as to whether to enter the safe mode.

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