JP2020135065A - Monitoring control device, monitoring control method, and monitoring control system - Google Patents

Abstract

To provide a monitoring control device allowing a user to efficiently perform monitoring control of a to-be-monitored facility, a monitoring control method, and a monitoring control system.SOLUTION: The monitoring control device has an image generation unit and a display control unit. The image generation unit generates a first monitoring image drawn by performing multiple combination of facility identification information associated with a to-be-monitored facility and system line identification information associated with system lines used for connecting facilities and a second monitoring image in which a plurality of pieces of control target identification information, associated with facility, of receiving a first control instruction indicating that there is a possibility of a predetermined control regarding operation of the facility being performed for the associated facility. The display control unit controls to display the first monitoring image and the second monitoring image on one or more display devices.SELECTED DRAWING: Figure 1

Description

Embodiments of the present invention relate to a monitoring control device, a monitoring control method, and a monitoring control system.

There is a monitoring control system that combines a graphic panel that displays the operating status of the monitored equipment with an indicator light and an operation console that sends control instructions to the monitored equipment. Such a monitoring and control system has been required to display a screen similar to a graphic panel and an operation console on an information processing device such as a personal computer. However, in the conventional information processing apparatus, only one of the graphic panel and the operation console can be displayed. For this reason, the observer of the equipment to be monitored will operate while switching between the graphic panel and the operation console, or operate two information processing devices in parallel, and the monitoring control cannot be performed efficiently. was there.

Japanese Unexamined Patent Publication No. 2003-143592 JP-A-2015-195509 Japanese Unexamined Patent Publication No. 2000-340372 Japanese Unexamined Patent Publication No. 2013-168823

An object to be solved by the present invention is to provide a monitoring control device, a monitoring control method, and a monitoring control system in which a user can more efficiently perform monitoring control of monitored equipment.

The monitoring control device of the embodiment includes an image generation unit and a display control unit. The image generation unit is a first monitoring image drawn by combining a plurality of equipment identification information associated with the equipment to be monitored and system line identification information associated with the system line used for connecting the equipment to each other. And a plurality of control target identification information that receives a first control instruction from the user, which is associated with the equipment and indicates that the associated equipment has a possibility of performing predetermined control regarding the operation of the equipment. A drawn second surveillance image is generated. The display control unit controls so that the first monitoring image and the second monitoring image are displayed on one or more display devices.

The figure which shows the configuration example of the monitoring control system 1 of embodiment. FIG. 6 is a functional block diagram showing a functional configuration of the monitoring control device 100 of the embodiment. The functional block diagram which shows the functional structure of the control device 200 of embodiment. The figure which shows a specific example of the connection information table of an embodiment. The figure which shows one specific example of the 1st surveillance image and the 2nd surveillance image of an embodiment. The figure which shows a specific example at the time of receiving the 1st control instruction of embodiment. The figure which shows a specific example at the time of receiving the 3rd control instruction of embodiment. The figure which shows a specific example at the time of receiving the 2nd control instruction of embodiment. The figure which shows a specific example when the notification screen of an embodiment is displayed. The flowchart which shows the control flow of the monitored equipment of embodiment. The flowchart which shows the control flow of the monitored equipment of embodiment.

Hereinafter, the monitoring control device, the monitoring control method, and the monitoring control system of the embodiment will be described with reference to the drawings.

FIG. 1 is a diagram showing a configuration example of the monitoring control system 1 of the embodiment. The monitoring control system 1 includes a monitoring control device 100, a control device 200-1 to 200-4, a controller 210-1 to 210-3, a controller 220-1 to 220-3, a controller 230-1 to 230-3, and a controller 240. It is equipped with -1 to 240-3 and a file server 300. The monitoring control device 100 and the control devices 200-1 to 200-4 are communicably connected via the closed network 400. The closed network 400 may be, for example, a network such as a LAN (Local Area Network). Hereinafter, when it is not distinguished which control device it is, it will be simply referred to as a control device 200.

The monitoring control device 100 receives monitoring data from each control device 200. The monitoring data is data indicating the operating state of the monitored equipment controlled by the controller connected to the control device 200. The monitoring data may have, for example, information indicating whether the monitored equipment is operating or not operating, or may have information indicating whether or not a failure has occurred. .. In addition, the monitoring data is data representing various quantities such as physical quantities and industrial quantities related to control. For example, when the equipment to be monitored is a pump, the monitoring data may include data indicating the discharge pressure and the discharge flow rate of the pump. Further, for example, when the equipment to be monitored is a valve, the monitoring data may be data indicating the opening degree of the valve. Further, for example, when the equipment to be monitored has various sensors, the monitoring data may be information representing the measured values (voltage value, current value, power value, water level, water pressure value, etc.) of each sensor. ..

The control device 200 is connected to one or more controllers. For example, the control device 200-1 is connected to the controller 210-1, the controller 210-2, and the controller 210-3. For example, the control device 200-2 is connected to the controller 220-1, the controller 220-2, and the controller 220-3. For example, the controller 200-3 is connected to the controller 230-1, the controller 230-2 and the controller 230-3. For example, the controller 200-4 is connected to the controller 240-1, the controller 240-2 and the controller 240-3. Hereinafter, when it is not distinguished which controller it is, it will be described simply as a controller. The control device 200 receives a control instruction from the monitoring control device 100. The control device 200 transmits a control instruction to the monitored equipment to the connected controller. Further, the control device 200 acquires monitoring data from the connected controller. The control device 200 transmits the acquired monitoring data to the monitoring control device 100 by multicast or broadcast.

The controller outputs a control signal for the monitored equipment and also inputs an equipment signal output by the monitored equipment. The controller generates monitoring data of the monitored equipment based on the equipment signal. The controller transmits the generated monitoring data to the controller 200. The control of the monitored equipment by the controller may be realized by any method. For example, the controller may determine the operation amount of the equipment to be monitored by applying the various quantities indicated by the input equipment signals to a predetermined mathematical model, or monitor the above quantities so as to follow a predetermined target value. The amount of operation of the target equipment may be determined. Further, the controller may control the monitored equipment according to the control instruction of the control device 200. The monitored equipment operates based on the control signal output by the controller. The control signal may be an analog signal or a digital signal.

The file server 300 is configured by using a storage device such as a magnetic hard disk device or a semiconductor storage device. The file server 300 acquires and stores monitoring data from the control device 200 via the closed network 400. The file server 300 transmits the monitoring data stored by itself to the monitoring control device 100 via the closed network 400.

FIG. 2 is a functional block diagram showing a functional configuration of the monitoring control device 100 of the embodiment. The monitoring control device 100 is an information processing device such as a personal computer or a server. The monitoring control device 100 includes a CPU (Central Processing Unit), a memory, an auxiliary storage device, and the like connected by a bus. The monitoring control device 100 functions as a device including a communication unit 101, an input unit 102, a first display unit 103, a second display unit 104, a connection information storage unit 105, and a control unit 106 by executing a monitoring control program. The monitoring control program may be stored on a computer-readable storage medium. The computer-readable storage medium is, for example, a flexible disk, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, or a storage device such as a hard disk built in a computer system. The surveillance image creation program may be transmitted via a telecommunication line.

The monitoring control device 100 generates a first monitoring image and a second monitoring image based on an operation from the user. The first monitoring image is an image showing the operating state of the monitored equipment to be monitored by the monitoring control system 1. The first surveillance image is represented by the unit of the monitored equipment to be monitored or the unit of the floor on which the equipment is provided. The first surveillance image is represented by a plan view. The first monitoring image is drawn by combining a plurality of equipment identification information associated with the monitored equipment to be monitored and system line identification information associated with the system line used for connecting the monitored equipment to each other. Will be done. The first monitoring image shows the connection and positional relationship between the equipment identification information.

The equipment identification information is identification information associated with the equipment to be monitored. The equipment identification information represents the operating state of the associated equipment by changing the display mode. The connection between the equipment identification information is represented by the system line identification information associated with the system line. The observer grasps the state of the monitored equipment based on the display mode of the equipment identification information. The observer is an aspect of the user.

The system line identification information is associated with the system line. The system line is a line used to connect the equipment to be monitored. The display mode of the system line identification information changes according to the energized state of the system line. For example, the system line identification information may be displayed in a different color depending on the energized state of the equipment to be monitored, or may be displayed blinking. The observer grasps the energized state of the system line based on the display mode of the system line identification information.

The second monitoring image is an image that receives a control instruction for the monitored equipment to be monitored by the monitoring control system 1. The second surveillance image is an image associated with the monitored equipment represented by the first surveillance image. The second surveillance image is represented by a plan view. The second monitoring image contains control target identification information that is associated with the monitored equipment and receives a first control instruction from the user indicating that control may be performed on the associated monitored equipment. Multiple drawings are made.

The control target identification information is associated with the equipment identification information. The controlled object identification information represents the operating state of the associated equipment by changing the display mode. The control target identification information receives the first control instruction by performing a predetermined process such as clicking from the observer.

The communication unit 101 is a network interface. The communication unit 101 communicates with the control device 200 and the file server 300 via the closed network 400. The communication unit 101 may communicate by a communication method such as a wireless LAN or a wired LAN.

The input unit 102 is configured by using an input device such as a touch panel, a mouse, and a keyboard. The input unit 102 may be an interface for connecting the input device to the monitoring control device 100. In this case, the input unit 102 creates input data (for example, instruction information indicating an instruction to the monitoring control device 100) from the input signal input in the input device, and inputs the input data to the monitoring control device 100.

The first display unit 103 is an output device such as a CRT (Cathode Ray Tube) display, a liquid crystal display, and an organic EL (Electro Luminescence) display. The first display unit 103 may be an interface for connecting the output device to the monitoring control device 100. In this case, the first display unit 103 generates a video signal from the video data and outputs the video signal to the video output device connected to itself. It should be noted that the first monitoring image will be displayed on the first display unit 103.

The second display unit 104 is an output device for a CRT display, a liquid crystal display, an organic EL display, or the like. The second display unit 104 may be an interface for connecting the output device to the monitoring control device 100. In this case, the second display unit 104 generates a video signal from the video data and outputs the video signal to the video output device connected to itself. It should be noted that the second monitoring image will be displayed on the second display unit 104.

The connection information storage unit 105 is configured by using a storage device such as a magnetic hard disk device or a semiconductor storage device. The connection information storage unit 105 stores connection information related to the first surveillance image. The connection information represents the connection state between the equipment identification information and the system line identification information in the first monitoring image. The connection information may be stored in the connection information storage unit 105 in advance, or may be acquired from the outside (for example, the control device 200 or the file server 300) via the communication unit 101.

FIG. 4 is a diagram showing a specific example of the connection information table of the embodiment. The connection information table has a connection information record. The connection information record has each value of the identification information identifier, the identification information type, the operating state, the connection, the control target identification information, and the location information. The identification information identifier is an identifier that can uniquely identify the equipment identification information or the system line identification information in the first monitoring image. Identifier The identifier may be any information as long as it does not overlap with other identification information identifiers. The identification information type represents the name of the equipment associated with the equipment identification information or the system line identification information identified by the identification information identifier. For example, when the identification information identified by the identification information identifier is the system line identification information, the identification information type is the system line. When the identification information identified by the identification information identifier is equipment identification information, the identification information type is the name of the equipment to be monitored. The operating status represents the operating status of the equipment associated with the equipment identification information or the system line identification information. In the case of equipment identification information, the operating state is represented by two values such as on or off. On means that the monitored equipment is in operation. When the operating state is on, the equipment identification information is displayed in an on mode (eg, a predetermined color such as red). Off means that the monitored equipment is not in operation. When the operating state is off, the equipment identification information is displayed in an off mode (eg, a predetermined color such as green). The equipment identification information may be displayed in any mode as long as the display mode is different depending on whether the operating state is off or on. In the case of system line identification information, the operating state is represented by two values such as energized or de-energized. Energization means a state in which electricity is flowing through the system line. When the operating state is energized, the system line identification information is displayed in an energized mode (for example, a predetermined color such as red). The non-energized state means that electricity is not flowing through the system line. When the operating state is non-energized, the system line identification information is displayed in a non-energized mode (for example, a predetermined color such as white). The system line identification information may be displayed in any mode as long as the display mode is different depending on whether the operating state is energized or the operating state is not energized. The connection indicates which of the other system line identification information the equipment identification information and the system line identification information identified by the identification information identifier are connected to. The connection holds, for example, the value of the connected identification information identifier. The control target identification information represents an identifier of the control target identification information associated with the equipment identification information. The control target identification information may be any information as long as it does not overlap with other control target identification information. If there is no associated control target identification information such as system line identification information, "-" may be retained. The position information is information representing a position where the equipment identification information and the system line identification information in the first surveillance image are drawn, for example, by coordinates or the like.

In the example shown in FIG. 4, the connection information record at the top of the connection information table has an identification information identifier value of "11", an identification information type value of "voltage detector", and an operating state value of "on". , The connection value is "21", the control target identification information value is "11a", and the position information value is "A". Therefore, according to the record at the top of the connection information table, the identification information type of the identification information identified by the identification information identifier "11" is "voltage detector", and the operating state is "ON" indicating that it is operating. ", Which is the system line identification information" 11 ", is associated with the control target identification information" 11a "in the second surveillance image, and is drawn in the area" A "on the first surveillance image. You can see that it is done. The connection information table shown in FIG. 4 is only a specific example. Therefore, the connection information table may be configured in a manner different from that shown in FIG.

Returning to FIG. 2, the description of the monitoring control device 100 will be continued. The control unit 106 controls the operation of each unit of the monitoring control device 100. The control unit 106 is executed by a device including a processor such as a CPU and a RAM. By executing the monitoring control program, the control unit 106 functions as an image generation unit 107, an equipment control unit 108, an identification information control unit 109, a notification unit 110, an authentication unit 111, and a display control unit 112.

The image generation unit 107 generates a first surveillance image and a second surveillance image. Specifically, the image generation unit 107 acquires the connection information table from the connection information storage unit 105. The image generation unit 107 generates a first monitoring image and a second monitoring image based on the connection information table. The image generation unit 107 causes the first display unit 103 to display the generated first surveillance image. The image generation unit 107 causes the second display unit 104 to display the generated second monitoring image.

The equipment control unit 108 receives a control instruction from the user. The equipment control unit 108 controls the equipment to be monitored according to the received control instruction. Specifically, when the control target identification information is clicked by the user via the input unit 102, the equipment control unit 108 receives the first control instruction for the clicked control target identification information. The first control instruction is an instruction indicating that control may be performed on the equipment associated with the control target identification information. The equipment control unit 108 controls the equipment associated with the control target identification information based on the first control instruction.

When the user clicks the start icon for starting control of the equipment via the input unit 102 within a preset time after receiving the third control instruction described later, the equipment control unit 108 performs the second control. Accept instructions. The start icon is drawn on the second surveillance image. In response to the second control instruction, the equipment control unit 108 starts control of the equipment associated with the control target identification information clicked when the first control instruction is received. The control to be started is the content of the control specified by the third control instruction.

The equipment control unit 108 receives the third control instruction when the user clicks the on icon or the off icon via the input unit 102 within a preset time after receiving the first control instruction. The third control instruction represents the content of control for the equipment. The third control instruction is received between the time when the first control instruction is received and the time when the second control instruction is received. The on icon is drawn on the second surveillance image. The off icon is drawn on the second surveillance image. In response to the third control instruction, the equipment control unit 108 determines the content of control for the equipment associated with the control target identification information clicked when the first control instruction is received.

The identification information control unit 109 changes the display mode of the equipment identification information or the system line identification information according to the received control instruction. Specifically, when the identification information control unit 109 receives the first control instruction, the clicked control target identification information and the equipment identification information associated with the same equipment as the clicked control target identification information are displayed. Is changed to a display mode (first display mode) different from the other equipment identification information and the other control target identification information. For example, the identification information control unit 109 may change the clicked control target identification information and the equipment identification information associated with the same equipment as the clicked control target identification information so as to surround them with an outer frame. Good. In this case, the color of the outer frame is preferably displayed in the same color, but may be displayed in different colors. Further, the identification information control unit 109 may blink the outer frame.

When the identification information control unit 109 receives the second control instruction, the identification information control unit 109 actually displays the clicked control target identification information and the equipment identification information associated with the same equipment as the clicked control target identification information. In response to the change in the state of the equipment of the above, the display mode is changed to a predetermined display mode (second display mode). For example, when control is performed so that the monitored equipment is turned on, the identification information control unit 109 turns on the controlled object identification information in response to the change in the state of the equipment (for example, a predetermined mode such as red). Change to color). When control is performed to turn off the monitored equipment, the identification information control unit 109 turns off the controlled object identification information in response to the change in the state of the equipment (for example, a predetermined color such as green). ).

When the identification information control unit 109 receives the third control instruction, the identification information control unit 109 displays a display mode of the system line identification information associated with the system line whose energization state has changed in response to the change in the energization state of the actual system line. Change. For example, a case where control is performed so that the monitored equipment is turned on will be described. In this case, the identification information control unit 109 sets the path when all the monitored equipment in any of the routes from the monitored equipment associated with the clicked controlled target identification information to the voltage detector is on. In response to the energization of the constituent system lines, the system line identification information is changed to an ON mode (for example, a predetermined color such as red). For example, a case where control is performed so that the monitored equipment is turned off will be described. In this case, the identification information control unit 109 is off from any one or more of the monitoring target equipment provided for each path from the monitoring target equipment associated with the clicked control target identification information to the voltage detector. If there is, and any one or more of the monitored equipment is off in all the routes, the system line identification information is turned off (for example, white) in response to the fact that the system lines constituting the route are no longer energized. Etc.) to change to a predetermined color).

The notification unit 110 associates the clicked control target identification information with the same equipment as the clicked control target identification information from the time when the first control instruction is received until the predetermined processing related to the control of the monitored equipment is performed. A predetermined notification screen is displayed on the first monitoring image or the second monitoring image so as not to overlap with the equipment identification information provided. The predetermined notification screen is a screen showing the control content for the equipment. The observer can grasp the operation performed by the observer based on the predetermined notification screen. Further, the notification unit 110 can grasp which monitoring target equipment is notified by displaying a predetermined notification screen so that the control target identification information and the equipment identification information do not overlap with each other.

The authentication unit 111 performs an authentication process for the observer by receiving predetermined authentication information from the observer. Specifically, the authentication unit 111 receives authentication information from the user via the input unit 102. The authentication information may be, for example, a combination of an ID and a password, or may be only a password. The password may be any information as long as it is information used as an existing password, such as a character string including numbers and alphabets, a combination of patterns, and a line pattern. The authentication information may be biometric information such as a fingerprint or a face. The authentication information may be a combination of a plurality of pieces of information. The authentication information may be different for each observer, or a common authentication information may be used for each observer. The authentication unit 111 determines whether or not the authentication information satisfies a predetermined condition. The predetermined condition may be, for example, whether or not the received authentication information matches the authentication information stored in the authentication unit 111, or any condition may be used. The authentication unit 111 stores the authentication information in advance. The equipment control unit 108 can accept the first control instruction when the authentication information satisfies a predetermined condition. The equipment control unit 108 may be configured not to accept the first control instruction when the authentication information does not satisfy a predetermined condition. The equipment control unit 108 may determine the control target identification information that can be operated according to the level of the authenticated observer. In this case, the control target identification information that can be operated is predetermined for each observer.

The display control unit 112 causes the first display unit 103 to display the first monitoring image generated by the image generation unit 107. The display control unit 112 causes the second display unit 104 to display the second monitoring image generated by the image generation unit 107. The display control unit 112 controls so that the first monitoring image and the second monitoring image are displayed at the same time. The display control unit 112 may be configured to display the first monitoring image and the second monitoring image side by side on one display device.

FIG. 3 is a functional block diagram showing a functional configuration of the control device 200 of the embodiment. The control device 200 functions as a device including a communication unit 201, a monitoring data storage unit 202, and a control unit 203 by executing a control program.

The communication unit 201 is a network interface. The communication unit 201 communicates with the monitoring control device 100 via the closed network 400. The communication unit 201 may communicate by a communication method such as a wireless LAN or a wired LAN.

The control unit 203 controls the operation of each unit of the control device 200. The control unit 203 is executed by a device including, for example, a processor and a memory. The control unit 203 functions as the controller control unit 204 by executing the control program.

The monitoring data storage unit 202 is configured by using a storage device such as a magnetic hard disk device or a semiconductor storage device. The monitoring data storage unit 202 stores the monitoring data acquired from the controller. The control unit 203 may store the monitoring data recorded in the monitoring data storage unit 202 in the file server 300 when the storage capacity of the monitoring data storage unit 202 is full. In this case, the control unit 203 deletes the monitoring data stored in the file server 300 from the monitoring data storage unit 202.

The controller control unit 204 controls the controller connected to the control device 200. Specifically, the controller control unit 204 transmits a control signal to the controller according to the content of the control received from the monitoring control device 100. The control signal may be, for example, a signal for turning on the operating state of the monitored equipment, or a signal for turning off the operating state.

FIG. 5 is a diagram showing a specific example of the first monitoring image and the second monitoring image of the embodiment. The first monitoring image is displayed on the first display unit 103. The image generation unit 107 draws the first monitoring image based on the connection information table stored in the connection information storage unit 105. The first monitoring image displayed on the first display unit 103 is equipment identification information 11, equipment identification information 12, equipment identification information 13, equipment identification information 14, equipment identification information 15, equipment identification information 16, system line identification information 21. , System line identification information 22, system line identification information 23, system line identification information 24, and system line identification information 25. According to the first monitoring image, it can be seen that the equipment identification information 11, the equipment identification information 12, and the equipment identification information 16 are in the operating state. According to the first monitoring image, it can be seen that the operating state of the equipment identification information 13, the equipment identification information 14, and the equipment identification information 16 is off. According to the first monitoring image, it can be seen that the system line identification information 21, the system line identification information 22, and the system line identification information 24 are in the energized state. According to the first monitoring image, it can be seen that the system line identification information 23 and the system line identification information 25 are in a non-energized state. In this way, the user can grasp the operating state of the monitored equipment based on the first monitoring image.

The second monitoring image is displayed on the second display unit 104. The image generation unit 107 draws the second monitoring image based on the connection information table stored in the connection information storage unit 105. The second monitoring image displayed on the second display unit 104 includes control target identification information 11a, control target identification information 12a, control target identification information 13a, control target identification information 14a, control target identification information 15a, and control target identification information 16a. , Unlock icon 30, On icon 41, Off icon 42, Unselection icon 43, and Output icon 44. According to the second monitoring image, the control target identification information 11a, the control target identification information 12a, the control target identification information 13a, the control target identification information 14a, the control target identification information 15a, and the control target identification information 16a are the equipment identification information 11 respectively. , The equipment identification information 12 and the equipment identification information 16. Therefore, since the operating states of the equipment identification information 11, the equipment identification information 12, and the equipment identification information 16 are on, the operating states of the control target identification information 11a, the control target identification information 12a, and the control target identification information 16a are on. It is displayed in a display mode indicating that. Further, since the operating states of the equipment identification information 13, the equipment identification information 14, and the equipment identification information 15 are off, the operating states of the control target identification information 13a, the control target identification information 14a, and the control target identification information 15a are off. It is displayed in a display mode indicating that.

The control target identification information 11a, the control target identification information 12a, the control target identification information 13a, the control target identification information 14a, the control target identification information 15a, and the control target identification information 16a receive a first control instruction from the user via the input unit 102. This is the identification information to be accepted. Each equipment identification information receives a first control instruction by being click-operated via, for example, the input unit 102. In this case, the first control instruction is an instruction indicating that control may be performed on the equipment associated with the click-operated control target identification information. Each equipment identification information can be selected when the unlock icon is selected as "unlock".

The unlock icon 30 is an icon indicating whether or not the second monitoring image is in a state of accepting an operation. When the unlock icon 30 is selected for "unlock", the user can input a predetermined instruction to the monitored equipment such as the first control instruction via the input unit 102. When the unlock icon 30 is selected as "lock", the user cannot input a predetermined instruction to the monitored equipment via the input unit 102. The unlock icon 30 in FIG. 5 indicates that it is selected as “lock”. The control unit 206 may be controlled to select "lock" when a predetermined time has elapsed since it was selected as "release". The predetermined time may be, for example, 5 seconds or 10 seconds.

The input icon 41 is an icon that receives a third control instruction from the user via the input unit 102. The input icon 41 receives a third control instruction by being clicked via the input unit 102, for example. In this case, the third control instruction is an instruction to turn on the operating state for the equipment associated with the control target identification information selected in the first control instruction. The ON icon 41 becomes selectable when the first control instruction is received.

The off icon 42 is an icon that receives a third control instruction from the user via the input unit 102. The off icon 42 receives a third control instruction by being clicked via the input unit 102, for example. In this case, the third control instruction is an instruction to turn off the operating state for the equipment associated with the control target identification information selected in the first control instruction. The off icon 42 becomes selectable when the first control instruction is received.

The deselection icon 43 is an icon that receives a deselection instruction from the user via the input unit 102. The deselection icon 43 receives, for example, a deselection instruction by being clicked via the input unit 102. The deselection instruction is an instruction to cancel the first control instruction or the third control instruction. The equipment control unit 108 cancels the first control instruction when the deselection icon 43 is selected while waiting for the third control instruction to be received after receiving the first control instruction. The equipment control unit 108 cancels the third control instruction when the deselection icon 43 is selected while waiting for the second control instruction to be received after receiving the third control instruction.

The output icon 44 is an icon that receives a second control instruction from the user via the input unit 102. The output icon 44 receives the second control instruction, for example, by performing a click operation via the input unit 102. In this case, the second control instruction starts control of the equipment according to the control content specified in the third control instruction for the equipment associated with the control target identification information selected in the first control instruction. It is an instruction to make. The output icon 44 becomes selectable when the third control instruction is received. The output icon 44 may be configured to receive a second control instruction by performing a plurality of click operations.

FIG. 6 is a diagram showing a specific example when the first control instruction of the embodiment is received. The contents already described in the first monitoring image and the second monitoring image will be omitted. FIG. 6 shows a first monitoring image and a second monitoring image when the control target identification information 14a representing the third disconnector is clicked via the input unit 102. That is, FIG. 6 shows a first surveillance image and a second surveillance image when the first control instruction is received. In this case, "unlock" is selected for the unlock icon 30.

The first surveillance image includes the outer frame 50. Upon receiving the first control instruction, the identification information control unit 109 changes the display mode by surrounding the equipment identification information 14 with the outer frame 50. The second surveillance image includes the outer frame 50a. Upon receiving the first control instruction, the identification information control unit 109 changes the display mode by surrounding the control target identification information 14a with the outer frame 50a. The outer frame 50 and the outer frame 50a may have different colors, but it is desirable that they have the same color. Further, the identification information control unit 109 may blink the outer frame 50 and the outer frame 50a.

FIG. 7 is a diagram showing a specific example when the third control instruction of the embodiment is received. The contents already described in the first monitoring image and the second monitoring image will be omitted. FIG. 7 shows a first surveillance image and a second surveillance image when the entry icon 41 is clicked via the input unit 102. That is, FIG. 7 shows the first monitoring image and the second monitoring image when the third control instruction is received after the control target identification information 14a is clicked as the first control instruction. In this case, "unlock" is selected for the unlock icon 30. Further, the input icon 41 is displayed in a manner indicating that the icon has been clicked in response to the click. The mode indicating that the click has been made may be that the color changes, or the outer frame may be displayed.

The first monitoring image includes the system line identification information 25a instead of the system line identification information 25. Upon receiving the third control instruction, the identification information control unit 109 determines whether or not the energization state of the system line identification information 25a connected to the equipment identification information 14 has changed. Specifically, the identification information control unit 109 has equipment identification information (for example, equipment identification information 12 and equipment identification information 16) in any route from the equipment identification information 14 to the equipment identification information 11 representing the voltage detector. When all are on, it is determined that the energized state of the system line identification information 25 changes to on. When the identification information control unit 109 determines that the energization state changes, the identification information control unit 109 changes the display mode by blinking the system line identification information 25a. On the other hand, the identification information control unit 109 is a system line when any one or more of the equipment identification information in any route from the equipment identification information 14 to the equipment identification information 11 representing the voltage detector is off. It is determined that the energized state of the identification information 25 remains off and does not change. The identification information control unit 109 does not change the display mode of the system line identification information 25a when it is determined that the energized state does not change.

FIG. 8 is a diagram showing a specific example when the second control instruction of the embodiment is received. The contents already described in the first monitoring image and the second monitoring image will be omitted. FIG. 8 shows a first surveillance image and a second surveillance image when the output icon 44 is clicked via the input unit 102. That is, FIG. 8 shows the first monitoring image and the second when the second control instruction is received after the control target identification information 14a is clicked as the first control instruction and the input icon 41 is clicked as the third control instruction. Represents a surveillance image. In this case, "unlock" is selected for the unlock icon 30.

The first monitoring image includes the system line identification information 25b instead of the system line identification information 25. Upon receiving the second control instruction, the identification information control unit 109 determines whether or not the energization state of the system line identification information 25b connected to the equipment identification information 14 has changed. When the identification information control unit 109 determines that the energized state has changed, the identification information control unit 109 changes the system line identification information 25b to a display mode indicating that the energized state is present. On the other hand, the identification information control unit 109 does not change the display mode of the system line identification information 25b when it is determined that the energized state has not changed (it remains in the non-energized state).

FIG. 9 is a diagram showing a specific example when the notification screen of the embodiment is displayed. The contents already described in the first monitoring image and the second monitoring image will be omitted. FIG. 9 displays a notification screen showing the content of control for the equipment from the time when the first control instruction is received until the equipment is controlled.

The first surveillance image includes a notification screen 60. On the notification screen of FIG. 9, the input icon 41 is clicked and displayed when the second control instruction is accepted. The notification unit displays a notification screen so that the control target identification information 14a selected in the first control instruction and the equipment identification information 14 associated with the control target identification information 14a do not overlap.

10 and 11 are flowcharts showing a flow of control of the monitored equipment of the embodiment. The process is executed in a state where the first monitoring image is displayed on the first display unit 103 and the second monitoring image is displayed on the second display unit 104. The equipment control unit 108 accepts the selection of "unlock" for the unlock icon 30 (step S101). Specifically, the equipment control unit 108 accepts the selection of "unlock" by accepting a click or drag on the unlock icon 30 from the user via the input unit 102. The equipment control unit 108 receives the first control instruction (step S102). Specifically, the equipment control unit 108 receives the first control instruction by receiving a click on the control target identification information displayed on the second monitoring image from the user via the input unit 102.

The identification information control unit 109 displays the control target identification information that has received the first control instruction and the equipment identification information associated with the same equipment as the control target identification information with other control target identification information. The display mode is changed from that of the equipment identification information of (step S103). For example, the identification information control unit 109 changes the display mode by surrounding the control target identification information and the equipment identification information with an outer frame. The equipment control unit 108 receives the third control instruction (step S104). Specifically, the equipment control unit 108 receives a third control instruction by receiving a click from the user on the on icon 41 or the off icon 42 displayed on the second monitoring image via the input unit 102.

The notification unit 110 displays a notification screen generated based on the third control instruction (step S105). The identification information control unit 109 determines whether or not there is a change in the energized state of the system line identification information connected to the equipment identification information associated with the control target identification information that has received the first control instruction (step S106). When there is a change in the energized state (step S106: YES), the identification information control unit 109 changes the display mode by blinking the system line identification information in which the energized state changes (step S107). If there is no change in the energized state (step S106: NO), the process proceeds to step S108.

The equipment control unit 108 determines whether or not the third control instruction has been received again (step S108). Specifically, the equipment control unit 108 operates either the on icon 41 or the off icon 42 in step S104, receives the third control instruction, and then operates either the on icon 41 or the off icon 42 again. Determine if it has been done. With such a configuration, the user can redo the third control instruction. When the third control instruction is received again (step S108: YES), the process proceeds to step S105 (step S109). When the third control instruction is not received (step S108: NO), the equipment control unit 108 receives the second control instruction (step S110). Specifically, the equipment control unit 108 receives the second control instruction by receiving a click on the output icon 44 displayed on the second monitoring image from the user via the input unit 102.

The equipment control unit 108 determines whether or not the input icon 41 is selected as the third control instruction and the third control instruction is accepted (step S111). When the ON icon 41 is selected and the third control instruction is received (step S111: YES), the equipment control unit 108 turns on the target equipment (step S112). Specifically, the equipment control unit 108 transmits to the control device 200 a control signal for turning on the operating state of the equipment associated with the control target identification information selected in the first control instruction. The control device 200 that has received the control signal transmits the control signal to the controller that controls the equipment associated with the control target identification information. The controller turns on the operating state of the equipment. The equipment control unit 108 changes the value of the connection information table stored in the connection information storage unit 105 according to the actual state of the equipment. For example, the equipment control unit 108 sets the operating state value of the equipment identification information associated with the control target identification information to "on". The identification information control unit 109 changes the display mode of the control target identification information selected in the first control instruction and the equipment identification information associated with the control target identification information to the operating state “on” mode (). Step S113).

When the third control instruction is received without selecting the ON icon 41 (step S111: NO), the equipment control unit 108 performs the off processing of the target equipment (step S114). Specifically, the equipment control unit 108 transmits to the control device 200 a control signal for turning off the operating state of the equipment associated with the control target identification information selected in the first control instruction. The control device 200 that has received the control signal transmits the control signal to the controller that controls the equipment associated with the control target identification information. The controller turns off the operating state of the equipment. The equipment control unit 108 changes the value of the connection information table stored in the connection information storage unit 105 according to the actual state of the equipment. For example, the equipment control unit 108 sets the operating state value of the equipment identification information associated with the control target identification information to “off”. The identification information control unit 109 changes the display mode of the control target identification information selected in the first control instruction and the equipment identification information associated with the control target identification information to the operating state “off” mode ( Step S115).

In the monitoring control system 1 configured in this way, the image generation unit 107 generates a first monitoring image and a second monitoring image. The first monitoring image is an image drawn by combining a plurality of equipment identification information associated with the equipment to be monitored and system line identification information associated with the system line used for connecting the equipment to each other. The second monitoring image is a control target identification that receives a first control instruction from the user, which is associated with the equipment and indicates that the associated equipment has a possibility of being subjected to predetermined control regarding the operation of the equipment. This is an image in which multiple pieces of information are drawn. The display control unit 112 controls so that the first monitoring image is displayed on the first display unit 103 and the second monitoring image is displayed on the second display unit 104. The user monitors and controls the equipment to be monitored based on the first monitoring image and the second monitoring image. Therefore, the user does not need to switch between the first monitoring image and the second monitoring image or operate the two monitoring control devices in parallel, so that the monitoring control can be performed efficiently. Become.

In the above-described embodiment, the case where the control target identification information and the equipment identification information have a one-to-one correspondence has been described as an example, but the present invention is not limited to this. For example, when the first monitoring image is represented by two types of images, an image representing the entire monitoring target and an image obtained by enlarging a part of the monitoring target, the control target identification information is in the image representing the entire monitoring target. The equipment identification information and the equipment identification information in an enlarged image of a part of the monitoring target are associated with each other.

The monitoring control device 100 may be implemented by using a plurality of information processing devices that are communicably connected via a network. In this case, each functional unit included in the monitoring control device 100 may be distributed and mounted in a plurality of information processing devices. For example, the image generation unit 107 and the display control unit 112 may be mounted on different information processing devices.

In each of the above embodiments, the image generation unit 107, the equipment control unit 108, the identification information control unit 109, the notification unit 110, the authentication unit 111, and the display control unit 112 are software function units, but hardware such as an LSI is used. It may be a functional part.

According to at least one embodiment described above, by having the image generation unit 107 and the display control unit 112, the user can more efficiently perform monitoring control of the monitored equipment.

Although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention as well as the invention described in the claims and the equivalent scope thereof.

1 ... Monitoring and control system 1, 100 ... Monitoring and control device, 101 ... Communication unit, 102 ... Input unit, 103 ... First display unit, 104 ... Second display unit, 105 ... Connection information storage unit, 106 ... Control unit, 107 ... image generation unit, 108 ... equipment control unit, 109 ... identification information control unit, 110 ... notification unit, 111 ... authentication unit, 112 ... display control unit, 200 ... control device, 201 ... communication unit, 202 ... monitoring data storage unit , 203 ... Control unit, 204 ... Controller control unit, 210 ... Controller, 220 ... Controller, 230 ... Controller, 240 ... Controller, 300 ... File server, 400 ... Closed network

Claims (8)

The first monitoring image drawn by combining a plurality of equipment identification information associated with the equipment to be monitored and the system line identification information associated with the system line used for connecting the equipment to each other, and the equipment A plurality of controlled object identification information for receiving a first control instruction indicating that there is a possibility that predetermined control regarding the operation of the equipment is performed on the associated equipment and the associated equipment is drawn. A surveillance image, an image generator that generates, and
A display control unit that controls the first monitoring image and the second monitoring image so that they are displayed on one or more display devices.
A monitoring control device equipped with. The display mode of the control target identification information that has received the first control instruction and the equipment identification information associated with the same equipment as the control target identification information is the other equipment identification information and the other control target identification information. Is changed to a different first display mode, and when a second control instruction instructing the start of control for the equipment is received from the user within a preset time after receiving the first control instruction, the equipment identification information And the identification information control unit that changes the display mode of the control target identification information to the second display mode according to the state of the equipment.
A facility control unit that controls the facility associated with the control target identification information in response to the second control instruction is further provided.
The monitoring control device according to claim 1. When the identification information control unit receives a third control instruction including the content of control for the equipment between the time when the first control instruction is received and the time when the second control instruction is received, the identification information control unit receives a third control instruction including the content of control for the equipment, depending on the state of the equipment. The display mode of the system line identification information associated with the system line whose energized state changes is changed.
The monitoring control device according to claim 2. The equipment control unit receives the second control instruction when the user inputs a plurality of times.
The monitoring control device according to any one of claims 2 to 3. Further provided with an authentication unit that authenticates the user by receiving predetermined information from the user.
The equipment control unit receives the first control instruction from a user authenticated by the authentication unit.
The monitoring control device according to any one of claims 2 to 4. From the time when the first control instruction is received until the predetermined processing related to the control is performed, the control target identification information that has received the first control instruction and the equipment associated with the same equipment as the control target identification information. A notification unit for displaying a notification screen showing the control content for the equipment on the first monitoring image or the second monitoring image so as not to overlap with the identification information is further provided.
The monitoring control device according to any one of claims 1 to 5. The first monitoring image drawn by the monitoring control device by combining a plurality of equipment identification information associated with the equipment to be monitored and system line identification information associated with the system line used for connecting the equipment to each other. And a plurality of control target identification information that receives a first control instruction from the user, which is associated with the equipment and indicates that the associated equipment has a possibility of performing predetermined control regarding the operation of the equipment. An image generation step to generate the drawn second surveillance image, and
A display control step of controlling the monitoring control device so that the first monitoring image and the second monitoring image are displayed on one or more display devices.
Monitoring and control method having. The first monitoring image drawn by combining a plurality of equipment identification information associated with the equipment to be monitored and the system line identification information associated with the system line used for connecting the equipment to each other, and the equipment A plurality of controlled object identification information for receiving a first control instruction indicating that there is a possibility that predetermined control regarding the operation of the equipment is performed on the associated equipment and the associated equipment is drawn. A surveillance image, an image generator that generates, and
A display control unit that controls the first monitoring image and the second monitoring image so that they are displayed on one or more display devices.
Monitoring and control system equipped with.

Images