JP6173418B2 - Surveillance system simulator - Google Patents

Description

  The present invention relates to a monitoring system simulator, for example, a monitoring system simulator used for confirming operation control of equipment in a facility in a monitoring system for monitoring a facility such as a building or an amusement park.

  Conventionally, as a simulator, there is an air conditioner simulator described in Patent Document 1. This simulator is used to grasp the operating state of the air conditioner. In this simulator, when an input condition for determining an operation condition is input from the input unit, data related to the operation of the air conditioner corresponding to the input condition is output to the display unit.

JP 2006-242429 A

  By the way, when starting up a building monitoring system that monitors a large number of devices such as lighting, air conditioning, sprinklers, elevators, etc., check the operation of the device by starting up the device in advance at a location different from the installation location, such as a business office. After performing, it is preferable to install the equipment on site. However, in the case of a short-term project, it may not be possible to start up the equipment in advance at the office, and it may be forced to start up the building monitoring system at the site. In that case, if the device performs an unexpected operation in the operation check at the site, whether there is a problem with the control software of the monitoring controller that controls the operation of each device, construction at the site, for example, incorrect wiring connection In some cases, it may not be possible to easily determine whether there is a problem, and it takes a long time to check the operation. In addition, since it is necessary to check the suitability of the control software and the suitability of other wiring connections at the same time when confirming the operation at the site, it is easy for check failures to occur, and the device operates unexpectedly. You may not even notice it.

  An object of the present invention is to provide a monitoring system simulator that can confirm in a short time that the monitoring system performs device control that is assumed, and can suppress unintended operation control of the device in the monitoring system.

The monitoring system simulator according to the present invention monitors the operation of the plurality of devices in a facility having a plurality of devices, and includes a plurality of local device controllers and a central monitoring controller that controls the plurality of local device controllers. A monitoring system simulator for simulating operation control of the plurality of devices in a monitoring system including a specific state input unit for selecting a specific state from a plurality of states assumed to occur in the facility; The central monitoring based on a device status output unit for outputting the status of the device, control software for controlling operations of the plurality of devices in the monitoring system, and a signal from the specific status input unit state of the device use the controller corresponding to the particular state in that particular state based on the output signal Association includes its association with the state of the equipment to be displayed on the device status output unit control section.

  According to the present invention, when a specific state assumed to occur in a facility is selected and input, the operation of the device associated with the specific state is output on the control software of the monitoring system. Therefore, by confirming whether or not the output operation is assumed, whether or not there is a problem in the monitoring system control software can be confirmed in advance at an office other than the system installation location. Therefore, even if a problem occurs at the site when the monitoring system is started up, it is specified that the problem is caused by construction at the site, so the time required for operation check can be shortened. In addition, since the suitability of the control software has been confirmed before construction at the site, it is only necessary to confirm other than the suitability of the control software, for example, confirmation of wiring connection, etc. at the site. Therefore, since there are fewer items to be confirmed at the site, the possibility of overlooking unexpected device operation control in the monitoring system is also reduced.

  The present invention may further include a time series selection input unit for automatically and continuously selecting the specific state from the plurality of states in time series.

  In this case, since the operation state of the continuous device with respect to a specific state that occurs continuously can be confirmed, it is possible to confirm a series of time-series operations of the devices that are scheduled and managed by the monitoring system.

  Further, in the case where the time series selection input unit is provided, a stop input unit for stopping the continuous selection of the specific state and selecting the specific state at a specific time, and a fast-forward for advancing the specific time You may further provide an input part and the rewind input part which returns the said specific time.

In this case, since continuous selection of a specific state can be stopped at a specific time, it can be confirmed whether or not the operation on the control software of the device at the specific time is normal. Further, since the specific time can be fast forwarded and rewinded, the state of each device at the specific time to be confirmed can be easily displayed, and the state of the device at the specific time can be easily confirmed .

  ADVANTAGE OF THE INVENTION According to this invention, it can confirm in a short period that the monitoring system performs apparatus control assumed, and the operation | movement control besides the assumption of the apparatus in a monitoring system can also be suppressed.

It is a conceptual diagram for demonstrating starting of the general monitoring system in a short-term project. It is a conceptual diagram explaining the usage method of a monitoring system simulator. It is a block diagram of a monitoring system simulator. It is a schematic diagram which shows an example of the display image displayed on the display part of a monitoring system simulator. It is a partial expansion schematic diagram of a part of the display image.

  Embodiments according to the present invention will be described below in detail with reference to the accompanying drawings. In the following, when a plurality of embodiments and modifications are included, it is assumed from the beginning that other embodiments are formed by appropriately combining those characteristic portions.

  FIG. 1 is a schematic configuration diagram illustrating a monitoring system 90 capable of simulating operation control of equipment in a facility to be monitored in the monitoring system simulator of the present disclosure. First, the configuration of the monitoring system 90, the startup of the monitoring system 90 generally performed in a short construction period project, and problems in the startup will be described with reference to FIG.

  The monitoring system 90 monitors the building. In this example, the case where the monitoring target is a building will be described. However, the monitoring target may be an amusement park, an aquarium, or any facility having a plurality of devices other than buildings. As shown in FIG. 1, the monitoring system 90 includes a central monitoring computer 61, a central monitoring server 62, and a central monitoring controller 63.

  The central monitoring computer 61 is preferably composed of a personal computer or a workstation. The central monitoring computer 61 is connected to the central monitoring server 62 and the central monitoring controller 63, and transmits and receives signals to and from the central monitoring server 62 and the central monitoring controller 63. The central monitoring computer 61 has an input unit composed of a plurality of keys, a mouse, and the like, and a system checker or the like can input a signal to the central monitoring controller 63 using the input unit. The central monitoring computer 61 has a display unit composed of a monitor or the like, and the display unit displays the operating state and the like of the devices 81-1 to 81-n in the building.

  The central monitoring server 62 is connected to the central monitoring controller 63 and transmits and receives signals to and from the central monitoring controller 63. A database of data necessary for the central monitoring controller 63 to control the local device controllers 80-1 to 80-n is installed in the central monitoring server 62, and the necessary data can be searched and extracted as appropriate. It is in a state.

  The central monitoring controller 63 is connected to the devices 81-1 to 81-n in the building via a plurality of local device controllers 80-1 to 80-n (n is an arbitrary natural number, the same applies hereinafter). The devices 81-1 to 81-n include, for example, air conditioning, lighting, elevators, sprinklers, and the like. A plurality of devices are determined for each facility. The central monitoring controller 63 is installed with control software for causing the local device controllers 80-1 to 80-n to control the devices 81-1 to 81-n. When a condition is input from the central monitoring computer 61, the central monitoring controller 63 refers to the data in the central monitoring server 62 and controls each local device controller 80-1 to 80-n based on the input condition. Is output.

  Control software for controlling the operation of the devices 81-1 to 81-n based on a control signal from the central monitoring controller 63 is installed in the local device controllers 80-1 to 80-n. . Each of the local device controllers 80-1 to 80-n includes a control circuit that is controlled by a signal from the central monitoring controller 63, and the control circuit includes a plurality of relays. When the local device controllers 80-1 to 80-n receive a control signal from the central monitoring controller 63, the contact / separation of each relay in the control circuit is determined. The local device controllers 80-1 to 80-n control the devices 81-1 to 81-n based on a control circuit constructed by specifying the contact / separation of each relay.

  FIG. 1 shows a state in which each of the local device controllers 80-1 to 80-n is connected to only one device 81-1 to 81-n. A plurality of devices are connected to the controllers 80-1 to 80-n.

  In a general short-term project, the monitoring system 90 is constructed on site, and it is also confirmed on site whether or not the operation control of the devices 81-1 to 81-n is appropriate. Specifically, the central monitoring computer 61, the central monitoring server 62, and the central monitoring controller 63 are connected on the site, and the local device controllers 80-1 to 80-n are also connected to the central monitoring controller 63 on the site. In addition, the devices 81-1 to 81-n are also connected to the local device controllers 80-1 to 80-n corresponding to the site, and by inputting a signal for realizing a specific state to the central monitoring computer 61, Whether or not the devices 81-1 to 81-n perform the assumed operation is also confirmed on site.

  In the start-up of the monitoring system 90, if the devices 81-1 to 81-n perform unexpected operations in the operation check at the site, the central monitoring controller that controls the operations of the devices 81-1 to 81-n. It is not possible to easily determine whether there is a problem with the 63 control software, or there is a problem with the incorrect wiring connection in the field or the control software for the local device controllers 80-1 to 80-n. May take a long time.

  FIG. 2 is a conceptual diagram for explaining how to use the monitoring system simulator 50.

  The monitoring system simulator (hereinafter referred to as a unit simulator) 50 can be suitably configured with a personal computer or a workstation. As shown in FIG. 2, the simulator 50 is used by being connected to a central monitoring computer 61, a central monitoring server 62, and a central monitoring controller 63.

Figure 3 is a block diagram of a simulator 50.

  The simulator 50 includes an input unit 1, a display unit 5, a storage unit 15, and a control unit 20. The input unit 1 includes a plurality of operation units. When the simulator 50 is a personal computer, the input unit 1 includes a mouse and a plurality of keys. The input unit 1 is provided for inputting a specific state that is supposed to occur in a building. For example, the input unit 1 can input a state in which a fire has occurred on a specific floor of the building, a state in which all or part of the lighting in the building is turned off at a predetermined time, and the like.

  The display unit 5 displays the states of the devices 81-1 to 81-n in the building by being controlled by the control unit 20. When the simulator 50 is a personal computer, the display unit 5 includes a monitor. The storage unit 15 includes a hard disk, a memory, and the like. The storage unit 15 stores simulator software. As described above, when the central monitoring controller 63 outputs a signal to the local device controllers 80-1 to 80-n, the local device controllers 80-1 to 80-n are based on the signal, and the device 81-1. Control the operation of ~ 81-n. The simulator software associates the signal of the central monitoring controller 63 with a signal representing the operating state of the devices 81-1 to 81-n controlled by the local device controllers 80-1 to 80-n.

  When a specific state is input from the input unit 1, the central monitoring controller 63 that receives the signal from the input unit 1 outputs a signal to the simulator 50. Then, the simulator software associates the signal from the central monitoring controller 63 with a signal representing the assumed operating state of each device 81-1 to 81-n, and each associated device 81- The operation states 1 to 81-n are displayed on the display unit 5. In the monitoring system 90, the central monitoring controller 63 actually controls the operation of the devices 81-1 to 81-n, whereas in the simulator 50, the control of the central monitoring controller 63 is simulated and simulated. The operating states of the devices 81-1 to 81-n under the control are displayed on the display unit 5.

  FIG. 4 is a diagram illustrating an example of a display image displayed by the display unit 5 of the simulator 50. FIG. 4 specifically illustrates the case where n is 6 and the monitoring system 90 includes six local device controllers 80-1 to 80-6. However, n may be any natural number. Is as described above.

  The display image shown in FIG. 4 includes a local controller display unit (hereinafter referred to as LC display unit) 70. The LC display unit 70 includes six specific local controller display units (hereinafter referred to as TLC display units) 70-1 to 70-6. As will be described in detail below, the TLC display units 70-1 to 70-6 transfer the devices 81-1 to 81-6 so as to reproduce a specific state in the corresponding local device controllers 80-1 to 80-6. It is used to input a signal for control, and is used to display the output status of the devices 81-1 to 81-6 corresponding to the input signal. Further, the display image includes a continuous output display section 55 composed of a band-like region extending in the vertical direction. Further, the display image includes a time series selection input unit 71, a time change input unit 72, a time interval change input unit 73, a stop input unit 74, a fast-forward input unit 75, and a rewind input unit 76.

  FIG. 5 is an enlarged view of the TLC display unit 70-1. The configuration of the TLC display unit 70-1 has the same configuration as the other TLC display units 70-2 to 70-6. The description of the configuration of the TLC display units 70-2 to 70-6 is omitted in the description of the configuration of the TLC display unit 70-1. Referring to FIG. 5, the plurality of display units displayed as DIPI are display units for input, and the plurality of display units displayed as DO are output display units. When an input display section is clicked, the management items and the current state relating to the input display section are displayed. The state on the input side is expressed by, for example, that the input display unit is lit in the first color if it is in the ON state, and that the display unit for input is not lit if it is in the OFF state. All the display units for input included in the TLC display units 70-1 to 70-6 constitute a specific state input unit. Although yellow can be suitably selected as the first color, the first color may be any color other than yellow.

  A system checker or the like can input a specific state by clicking an appropriate input display unit. In the TLC display unit 70-1, CT1 to CT8 indicate the slot numbers of the local device controller 80-1 corresponding to the TLC display unit 70-1. Each of the local device controllers 80-1 to 80-6 has a plurality of slots into which control boards are inserted. The slot number is a number assigned to a plurality of slots in the local device controllers 80-1 to 80-6. In the example shown in FIG. 5, DIPI00 in the card slot CT2, DIPI03 in the card slot CT2, and DI02J in the card slot CT5 are turned on by the input of the system confirmer and the like, and are lit in the first color. The specific state to be input is, for example, a state where the lights on the first floor and the third floor are turned off and the air conditioning on the second floor is stopped.

  When a specific state is input, the state of the device 81-1 corresponding to the specific state is displayed on the output display unit. When the output display section is clicked, the management items and the current state relating to the output display section are displayed. The management items include, for example, air conditioning on the third floor or lighting on the fourth floor. The current state on the output side is expressed, for example, by turning on the output display unit in the second color if the output is on, and not lighting the output display unit if the output is off. All the output display units included in the TLC display units 70-1 to 70-6 and the continuous output display unit 55 (see FIG. 4) constitute a device status output unit.

  The second color is preferably set to a color different from the first color, but may be set to the same color as the first color. Further, it is preferable that the second color on the output side is configured with a conspicuous color such as red that can alert the system confirmer or the like. In this example, the DO02 of the card slot CT5, the DOACC of the card slot CT5, the DO05C of the card slot CT8, and the DO05H of the card slot CT8 are in the ON state and are lit in the second color. These output states correspond to, for example, the state where the lighting on the first floor and the third floor is turned off and the air conditioning on the second floor is stopped.

  System checkers, etc. can reproduce a specific state by appropriately selecting a specific display unit from a plurality of input side display units and turning on the specific display unit by an operation, and the output display unit lighting state By confirming, it is possible to confirm the state of the device in that specific state.

  Referring to FIG. 4 again, the time-series selection input unit 71 starts a function to automatically input a specific state that occurs in a time series in a managed building in association with the time at which the state occurs. Used for. In building management, there is a case where a specific state is interlocked such that when the A device is operated, the B device is also operated. A schedule over a specific period can be set in advance based on the needs, and the data of the schedule can be stored in advance in the central monitoring server 62 or the central monitoring controller 63. As for the schedule data, for example, when it is 9 o'clock, the door is unlocked and the light is turned on. Air conditioning is data that allows a specific state to be executed continuously in time series, such as turning on at 9:00 am and turning off at 11:00 pm. The schedule may vary depending on external conditions such as the season. In the present embodiment, programs of a plurality of schedules for continuously executing specific states that occur continuously in time series are stored in advance in the central monitoring server 62 or the central monitoring controller 63. A system checker or the like can select and execute a specific schedule from a plurality of schedules by dragging or clicking the time-series selection input unit 71 with a mouse.

  The time change input unit 72 is used to set an initial time of a specific state that occurs continuously in time series. When the time change input unit 72 is clicked, the time can be displayed, and by changing the time, the initial time in a continuous specific state can be selected. The time interval change input unit 73 is used to set a time interval of a specific state that continuously occurs in the simulation based on the schedule. When the time interval change input unit 73 is clicked, the time can be displayed, and by changing the time, a time interval in a specific state that occurs continuously can be set.

  Referring to FIG. 4, the continuous output display unit 55 displays the states of the devices 81-1 to 81-6 with respect to a specific state continuously generated in time series. In one example, the continuous output display unit 55 displays the date, time, ON / OFF of the management item, and an alarm on each line. In the continuous output display section 55, time series display is performed, the new history is displayed above the old history, and the old history is gradually sent downward.

  With continuing reference to FIG. 4, the stop input unit 74 is used to stop the automatic reproduction of a specific state in a time series and continuously and select a specific state at a specific time. The fast-forward input unit 75 is used to advance the specific time, and the rewind input unit 76 is used to rewind the specific time. A system checker or the like can easily select a specific time to be displayed by operating the three input units 74, 75, and 76 with a mouse.

  Referring to FIG. 2 again, the display unit of central monitoring computer 61 displays a display image corresponding to the display image displayed by the display unit of simulator 50 described with reference to FIGS. 4 and 5. A monitor of the monitoring system 90 can reproduce a specific state via the input unit of the central monitoring computer 61. Since the central monitoring computer 61 is operated by the supervisor, it is preferable that the management items representing the managed devices are easy to understand. Therefore, it is preferable that the management items are indicated by icons in the display image displayed by the display unit of the central monitoring computer 61. The management item icon may include, for example, a lighting icon or a door icon.

  According to the simulator 50 of the above-described embodiment, when a specific state assumed to occur in a building is selected and input, each device 81-associated with the specific state by the control software of the monitoring system 90 is selected. A state of 1 to 81-6 is output. Therefore, by confirming whether or not the output operation is assumed, whether or not there is a problem with the control software of the monitoring system 90 before starting the monitoring system 90 at the site or the like. Can be confirmed in advance. Therefore, even if a problem occurs at the site when the monitoring system 90 is started up, it is specified that the problem is caused by construction at the site, and the time required for operation confirmation can be shortened. In addition, since the suitability of the control software has been confirmed before construction at the site, it is only necessary to confirm other than the suitability of the control software, for example, confirmation of wiring connection, etc. at the site. Therefore, since there are fewer items to be confirmed at the site, the possibility of overlooking unexpected device operation control in the monitoring system is also reduced.

  In addition, since the time series selection input unit 71 for automatically performing continuous selection in a time series of a specific state from a plurality of states is provided, each device 81-managed based on time by the monitoring system 90. A series of time series operations from 1 to 81-6 can be confirmed.

  Moreover, the stop input part 74 for stopping a continuous selection and selecting the specific state in specific time, the fast-forward input part 75 which advances specific time, and the rewind input part 76 which returns specific time are provided. Therefore, it is possible to easily confirm the operation on the control software of each of the devices 81-1 to 81-6 at a specific time.

  The present invention is not limited to the above-described embodiment and its modifications, and various improvements and modifications can be made within the matters described in the claims of the present application and their equivalent ranges.

  For example, the operation status data associated with the time of the devices 81-1 to 81-n is taken into the central monitoring server 62 via the local device controllers 80-1 to 80-n and the central monitoring controller 63. Software may be installed. Moreover, although the simulator 50 demonstrated the example which has the time series selection input part 71, the stop input part 74, the fast-forward input part 75, and the rewinding input part 76 in the said embodiment, a simulator has a time series selection input part. On the other hand, the stop input unit, the fast-forward input unit, and the rewind input unit may not be provided. The simulator may not have a time-series selection input unit, a stop input unit, a fast-forward input unit, and a rewind input unit. In addition, the layout, the number of input and output display units, the shape, and the like in the display image displayed by the display unit are not limited to those described with reference to FIGS.

  DESCRIPTION OF SYMBOLS 20 Control part, 50 Monitoring system simulator, 71 Time series selection input part, 74 Stop input part, 75 Fast forward input part, 76 Rewind input part, 90 Monitoring system.

Claims (3)

The operation of the plurality of devices in a facility having a plurality of devices, the plurality of devices in a monitoring system including a plurality of local device controllers and a central monitoring controller that controls the plurality of local device controllers. A monitoring system simulator for simulating motion control,
A specific state input unit for selecting a specific state from a plurality of states assumed to occur in the facility;
A device status output unit for outputting the status of the device;
The specific state based on a signal output from the central monitoring controller based on control software for controlling operations of the plurality of devices in the monitoring system and a signal from the specific state input unit. A control unit that associates the state of the device corresponding to the specific state and displays the state of the associated device on the device state output unit;
A surveillance system simulator comprising: The monitoring system simulator according to claim 1,
A monitoring system simulator further comprising a time series selection input unit for automatically and continuously selecting the specific state from the plurality of states in time series. The monitoring system simulator according to claim 2,
A stop input unit for stopping the continuous selection of the specific state and selecting the specific state at a specific time;
A fast-forward input unit for advancing the specific time;
A rewind input unit for returning the specific time;
Further comprising monitoring system simulator.

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