JP2019204280A - Facility monitoring device, and facility monitoring method - Google Patents

Abstract

To provide information capable of grasping at once how much an alarm state generated at a monitoring point is influenced on an operation state of facilities for a user.SOLUTION: A facility monitoring device comprises: an alarm information acquisition part 11 for acquiring alarm information about an alarm generated at a plurality of monitoring points installed in one or more appliances inside a facility; an alarm information totalization part 12 for calculating a state determining index indicative of a rate of an alarm generation monitoring point in an alarm state out of the plurality of monitoring points on the basis of the alarm information acquired by the alarm information acquisition part 11; a state determination part 13 for determining an operation state of the facility on the basis of the state determining index calculated by the alarm information totalization part 12; and an output control part 14 for outputting output control information in order to output information about the operation state determined by the state determination part 13.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a facility monitoring apparatus and a facility monitoring method for monitoring equipment installed in equipment in a facility.

2. Description of the Related Art Conventionally, there has been known a central monitoring device that displays a state of air conditioning control, environmental management, safety management, and facility management in a facility such as a building on a display. The user displays the state of the air conditioning control and the like on the central monitoring device, and checks the displayed display to perform the facility monitoring work (for example, Patent Document 1).
In addition, as a technology for notifying a user of an alarm generated in a facility, a monitoring control device that displays a list screen of alarms generated at points obtained from a plurality of monitored devices installed in the facility is known. (For example, Patent Document 1).

JP 2017-37551 A JP 2012-59151 A

  However, in the conventional technology represented by the technology related to the facility monitoring apparatus disclosed in Patent Document 1 or Patent Document 2, the user can determine how much the alarm state is generated in the facility. There is a problem that it is difficult to grasp at a glance whether or not it influences the situation.

  The present invention has been made to solve the above-described problems, and it is possible to determine at a glance how much the alarm state occurring in the facility affects the operation state of the facility. An object of the present invention is to provide a facility monitoring apparatus and a facility monitoring method capable of providing information that can be grasped by the facility.

  The facility monitoring apparatus according to the present invention is acquired by an alarm information acquisition unit that acquires alarm information related to an alarm generated at a plurality of monitoring points installed in one or more facilities in the facility, and an alarm information acquisition unit Based on the alarm information, the alarm information totaling unit that calculates the ratio of the alarm occurrence monitoring points that are in the alarm state out of the multiple monitoring points, and the status calculated by the alarm information totaling unit A state determination unit that determines an operation state of a facility based on an index for determination, and an output control unit that outputs output control information for outputting information related to the operation state determined by the state determination unit To do.

  According to the present invention, it is possible to provide information that allows the user to grasp at a glance how much the alarm state occurring in the facility affects the operation state of the facility. .

It is a figure which shows the structural example of the facility monitoring system provided with the facility monitoring apparatus which concerns on Embodiment 1. FIG. It is a figure which shows the structural example of the facility monitoring apparatus which concerns on Embodiment 1. FIG. 3 is a flowchart for explaining an operation of the facility monitoring apparatus according to the first embodiment. It is a figure which shows the structural example of the facility monitoring apparatus which concerns on Embodiment 2. FIG. 10 is a flowchart for explaining an operation of the facility monitoring apparatus according to the second embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 is a diagram illustrating a configuration example of a facility monitoring system 100 including a facility monitoring apparatus 1 according to the first embodiment.
The facility monitoring system 100 can be applied to a building monitoring system that monitors devices installed in one or more facilities in a facility such as a building.
The facility monitoring system 100 includes a facility monitoring device 1 and a controller 2. The facility monitoring apparatus 1 and the controller 2 are connected via a network. The controller 2 is connected to a device 3 installed in each facility in the facility via a network.
Although two controllers 2 are shown in FIG. 1, this is merely an example, and one or more controllers 2 are connected to the facility monitoring apparatus 1. In addition, a plurality of devices 3 are connected to each controller 2.
Hereinafter, in the first embodiment, the device 3 is referred to as a “monitoring point”. The monitoring point includes all devices 3 installed in each facility in the facility such as a sensor, an actuator, a thermometer, or a wattmeter.

The controller 2 collects information about the monitoring point (hereinafter, “monitoring point data”) measured at the monitoring point from the monitoring point. The monitoring point data is data such as temperature, humidity, or power. The monitoring point data includes alarm information related to an alarm generated at the monitoring point.
The facility monitoring apparatus 1 acquires monitoring point data via the controller 2.
The timing at which the controller 2 collects the monitoring point data from the monitoring points and the timing at which the facility monitoring device 1 acquires the monitoring point data from the controller 2 may each be always or as a preset cycle. It can be set as appropriate.

  The facility monitoring apparatus 1 has a monitoring point (hereinafter referred to as “alarm generation monitoring point”) in an alarm state among the monitoring points installed in the facility based on the alarm information acquired through the controller 2. A state determination index indicating the ratio of how much is present is calculated, and the operational state of the facility is determined based on the calculated state determination index. And the facility monitoring apparatus 1 makes the output apparatus (illustration omitted) output the information regarding the determined operation state. The output device is a lighting device that can be turned on, or a display device such as a display.

FIG. 2 is a diagram illustrating a configuration example of the facility monitoring apparatus 1 according to the first embodiment.
The operation of the facility monitoring apparatus 1 is executed by a program process using a CPU (Central Processing Unit) based on software.
The facility monitoring apparatus 1 includes an alarm information acquisition unit 11, an alarm information totaling unit 12, a state determination unit 13, an output control unit 14, and an alarm information storage unit 15.
The alarm information acquisition unit 11 acquires alarm information related to an alarm generated at the monitoring point from the controller 2.
The alarm information acquisition unit 11 outputs the acquired alarm information to the alarm information totaling unit 12.
Specifically, for example, the alarm information acquisition unit 11 acquires monitoring point data from the controller 2. Then, the alarm information acquisition unit 11 discriminates alarm information from the monitoring point data, and outputs the alarm information to the alarm information totaling unit 12. For example, the monitoring point data is provided with information indicating alarm information, and the alarm information acquisition unit 11 determines whether the alarm information is alarm information based on the information provided. Good.
Further, for example, a data acquisition unit (not shown) of the facility monitoring device 1 may acquire monitoring point data from the controller 2 and output alarm information of the monitoring point data to the alarm information acquisition unit 11. . The alarm information acquisition unit 11 acquires the alarm information output from the data acquisition unit.
Note that the monitoring point data output from the controller 2 is output in association with information for specifying the monitoring point for each monitoring point.

The alarm information acquisition unit 11 stores the acquired alarm information in the alarm information storage unit 15 in association with the acquisition date and time of the alarm information.
The alarm information storage unit 15 is configured by a memory, an HDD, or the like, and stores alarm information. The alarm information storage unit 15 stores a history of alarm information acquired by the alarm information acquisition unit 11.
In FIG. 1, the alarm information storage unit 15 is provided in the facility monitoring device 1, but this is only an example, and the alarm information storage unit 15 is a facility monitoring device outside the facility monitoring device 1. 1 may be provided in a place where reference can be made.

Based on the alarm information output from the alarm information acquisition unit 11, the alarm information totaling unit 12 calculates a state determination index indicating the ratio of the alarm generation monitoring point among the monitoring points.
Specifically, the alarm information totaling unit 12 calculates a state determination index based on the following equation (1).
Indicator for state determination = number of alarm monitoring points / total number of monitoring points installed in the facility (1)

It is assumed that the total number of monitoring points installed in the facility is stored in advance.
The number of alarm generation monitoring points is the total number of alarms that have occurred.
For example, if a plurality of different types of alarms are generated at a certain monitoring point at the same time, one alarm information includes information regarding a plurality of alarms. In this case, the alarm information totaling unit 12 counts the alarm occurrence monitoring points for the plurality of alarms included in the alarm information.
Therefore, the state determination index may be larger than “1”.

In the first embodiment, as described above, when a plurality of different types of alarms are generated at the same time at a certain monitoring point, the information regarding the plurality of alarms is included in one alarm information. However, this is not a limitation. For example, alarm information may be output from the controller 2 in units of generated alarms, and the alarm information acquisition unit 11 may acquire alarm information output in units of alarms. In this case, the alarm information totaling unit 12 may count the alarm occurrence monitoring points by the number of alarm information acquired by the alarm information acquiring unit 11.
The alarm information totaling unit 12 outputs the calculated state determination index to the state determination unit 13.

The state determination unit 13 determines the operating state of the facility based on the state determination index calculated by the alarm information totaling unit 12.
Specifically, the state determination unit 13 determines the operation state of the facility by comparing the state determination index with a preset threshold value.
In the first embodiment, as an example, the state determination unit 13 divides the operational state of the facility into three stages of “normal”, “warning”, and “danger” according to the state determination index. It is assumed that a first threshold value and a second threshold value are set for dividing into three stages.
The state determination unit 13 determines “normal” when the state determination index is smaller than the first threshold, and “warning” when the state determination index is greater than or equal to the first threshold and less than or equal to the second threshold. If the state determination index is larger than the second threshold, it is determined as “danger”.
This is merely an example, and the state determination unit 13 can determine the operation state of the facility by an appropriate method based on a preset rule. Moreover, the operation state of the facility determined by the state determination unit 13 is not limited to the above three stages, and the state determination unit 13 can determine an appropriate number of appropriate operation states.
The state determination unit 13 outputs the determined facility operation state information to the output control unit 14.

The output control unit 14 outputs, to the output device, output control information for outputting information related to the operational state of the facility determined by the state determination unit 13.
Specifically, for example, the output control unit 14 causes the lighting fixture to blink blue if the operation state is “normal”, and blinks yellow if the operation state is “warning”. If “danger”, output control information for blinking in red is output. Further, for example, the output control unit 14 causes the display device to display a message “operating state is normal level” if the operating state is “normal”, and “operating” if the operating state is “warning”. The message “Status is a warning level” is displayed, and if the operation status is “Danger”, output control information for displaying the message “Operation status is a risk level” is output. In addition, for example, the output control unit 14 outputs output control information for blinking the lighting fixture to the lighting fixture, and outputs output control information for displaying a message or the like indicating an operation state on the display device. You may do it. Further, for example, the output control unit 14 may output output control information for displaying a state determination index on the display device together with the output control information as described above. Note that these are merely examples, and the output control unit 14 is configured to cause the output device to output information related to the facility operation state that allows the user to immediately grasp the facility operation state. That's fine.

The operation of the facility monitoring apparatus 1 according to Embodiment 1 will be described.
FIG. 3 is a flowchart for explaining the operation of the facility monitoring apparatus 1 according to the first embodiment.
The alarm information acquisition part 11 acquires the alarm information regarding the alarm which has generate | occur | produced at the monitoring point from the controller 2 (step ST301).
The alarm information acquisition unit 11 outputs the acquired alarm information to the alarm information totaling unit 12.
At this time, the alarm information acquisition unit 11 causes the alarm information storage unit 15 to store the acquired alarm information.

Based on the alarm information output from the alarm information acquisition unit 11 in step ST301, the alarm information totaling unit 12 calculates a state determination index indicating the ratio of alarm generation monitoring points among the monitoring points (step ST302). .
The alarm information totaling unit 12 outputs the calculated state determination index to the state determination unit 13.

The state determination unit 13 determines the operating state of the facility based on the state determination index calculated by the alarm information totaling unit 12 in step ST302 (step ST303).
The state determination unit 13 outputs the determined facility operation state information to the output control unit 14.

  The output control unit 14 outputs, to the output device, output control information for outputting information related to the operation state of the facility determined by the state determination unit 13 in step ST303 (step ST304).

In the conventional technology as described above, even if the user can individually check the alarm state occurring in the facility, the user understands how much the alarm state affects the operation state of the facility. In order to do so, it was necessary to perform some kind of analysis work and comprehensively judge the alarm status of the monitoring points in the facility. Therefore, it is difficult for the user to grasp at a glance how much the alarm state occurring in the facility affects the operation state of the facility.
On the other hand, the facility monitoring apparatus 1 according to the first embodiment is for state determination indicating the proportion of alarm generation monitoring points among the monitoring points installed in the facility based on the acquired alarm information. An index is calculated, and information related to the operational state of the facility determined based on the calculated state determination index is output to the output device. Therefore, the user can grasp at a glance how much the alarm state generated at the monitoring point has an influence on the operation state of the facility based on the information output from the output device.

  As described above, according to the first embodiment, the facility monitoring apparatus 1 acquires alarm information related to an alarm generated at a plurality of monitoring points installed in one or more facilities in the facility. Based on the alarm information acquired by the acquisition unit 11 and the alarm information acquisition unit 11, alarm information for calculating a state determination index indicating a ratio of alarm generation monitoring points in an alarm state among a plurality of monitoring points Based on the state determination index calculated by the totaling unit 12 and the alarm information totaling unit 12, the state determination unit 13 that determines the operation state of the facility, and the output for outputting information on the operation state determined by the state determination unit 13 An output control unit 14 that outputs control information is provided. Therefore, it is possible to provide information that allows the user to grasp at a glance how much the alarm state generated at the monitoring point affects the operational state of the facility.

Embodiment 2. FIG.
In the first embodiment, alarm information acquired from a plurality of monitoring points is used as it is for calculation of a state determination index. In the second embodiment, an embodiment will be described in which a weight is set for the alarm indicated by the alarm information, and the state determination index is calculated using the weight.

  The configuration of the facility monitoring system 100 including the facility monitoring device 1a according to the second embodiment is the same as the configuration described with reference to FIG.

FIG. 4 is a diagram illustrating a configuration example of the facility monitoring apparatus 1a according to the second embodiment.
In FIG. 4, the same components as those of the facility monitoring apparatus 1 described in Embodiment 1 with reference to FIG.
The facility monitoring apparatus 1a according to the second embodiment is different from the facility monitoring apparatus 1 according to the first embodiment in that the alarm information totaling unit 12a includes a weight setting unit 121.
The weight setting unit 121 sets a weight for calculating a state determination index for an alarm.
Specifically, the weight setting unit 121 sets a weight for an alarm based on the alarm information according to the monitoring point at which the alarm is generated.

It should be noted that the weight setting unit 121 determines, for which monitoring point, how much weight is set for an alarm generated at the monitoring point, according to a predefined condition.
For example, for a monitoring point (compressor pressure gauge, etc.) installed in an air conditioner that produces air to be sent to all equipment in the facility, which will affect the entire equipment in the facility if an abnormality occurs When an alarm is generated, a condition for setting the weight for the generated alarm to “large” is defined in advance.
In addition, for example, when an alarm occurs for a monitoring point (temperature sensor) installed in the air conditioner of each room in the facility where the range of influence on the facilities in the facility is extremely small, A condition for setting the weight for the alarm to “small” is defined in advance.
In addition, for example, even if a monitoring point is installed in each room in a facility, an alarm is generated for a monitoring point (such as an air conditioner louver) that has a relatively large impact when an abnormality occurs. The condition for setting the weight for the generated alarm to “medium” is defined in advance.
The weighting conditions as exemplified above are defined in advance by a user or the like and stored in a place where the weight setting unit 121 can refer to them. The user or the like can define appropriate conditions for the weighting conditions.
The alarm information totaling unit 12a calculates a state determination index using the weight set by the weight setting unit 121.

The operation of the facility monitoring apparatus 1a according to the second embodiment will be described.
FIG. 5 is a flowchart for explaining the operation of the facility monitoring apparatus 1a according to the second embodiment.
In FIG. 5, the specific operations of step ST501 and steps ST504 to ST505 are the same as the specific operations of step ST301 and steps ST303 to ST304 of FIG. 3 described in the first embodiment, respectively. The duplicated explanation is omitted.

Based on the alarm information output from the alarm information acquisition unit 11 in step ST501, the weight setting unit 121 sets a weight for calculating the state determination index for the alarm indicated by each alarm information. (Step ST502).
The alarm information totaling unit 12a calculates the state determination index using the weight set by the weight setting unit 121 (step ST503).

The importance of monitoring varies depending on the equipment in the facility.
The facility monitoring device 1a according to the second embodiment is more suitable for actual operation by weighting the alarm depending on whether the weight setting unit 121 generates an alarm at a monitoring point installed in which facility. Information regarding the operational status of the facility can be provided to the user.

In the above description, the weight setting unit 121 sets the weight for the alarm according to the monitoring point where the alarm is generated according to the predefined condition.
Not only this but the weight setting part 121 can also change a weight according to the continuation time after a warning generate | occur | produces, Therefore It demonstrates below.
When the weight setting unit 121 acquires the alarm information, the weight setting unit 121 refers to the alarm information storage unit 15 to determine the duration of how long the alarm indicated by the acquired alarm information has been generated. To do. For example, the weight setting unit 121 may determine the duration by going back to the alarm information acquisition date and time stored in association with the alarm information. In addition, for example, it is assumed that the time when the alarm is generated is associated with the information indicating the alarm in the alarm information, and the weight setting unit 121 is provided with the alarm information, and the time when the alarm is generated Therefore, the duration time may be determined.
For example, the weight setting unit 121 changes the weight so as to increase the weight when the state where the alarm is generated exceeds a preset threshold (third threshold).

In this way, the weight setting unit 121 changes the weight according to the duration of the state in which the alarm is generated, for example, the weight is increased for the alarm that has occurred for a long time, and as a result For example, the operational state of the facility that has been determined to be “warning” by the state determination unit 13 is determined to be “danger”.
As a result, the user can be alerted to the fact that the alarm is being generated.

  As described above, according to the second embodiment, the facility monitoring device 1a sets the weight for calculating the state determination index for the alarm in addition to the configuration of the facility monitoring device 1 of the first embodiment. The alarm information totaling unit 12a calculates a state determination index using the weight set by the weight setting unit 121. Therefore, it is possible for the user to grasp at a glance how much the alarm status generated at the monitoring point has an effect on the operation status of the facility, as information more suitable for actual operation. Can be provided.

  In the facility monitoring apparatus 1a, the weight setting unit 121 can change the weight according to the duration time after the alarm is generated. Therefore, the user can be alerted to the fact that the alarm is being generated.

  In the first embodiment and the second embodiment described above, in the facility monitoring apparatus 1, the alarm information acquisition unit 11 stores the alarm information history in the alarm information storage unit 15. It is not essential for the information acquisition unit 11 to store a history of alarm information. In the first embodiment and the second embodiment, the alarm information acquisition unit 11 may not store the alarm information in the alarm information storage unit 15.

  Further, within the scope of the present invention, the invention of the present application can be freely combined with each embodiment, modified with any component in each embodiment, or omitted with any component in each embodiment. .

DESCRIPTION OF SYMBOLS 1, 1a Facility monitoring apparatus 2 Controller 3 Equipment 11 Alarm information acquisition part 12, 12a Alarm information totaling part 13 State determination part 14 Output control part 15 Alarm information storage part 100 Facility monitoring system 121 Weight setting part

Claims (7)

An alarm information acquisition unit for acquiring alarm information related to an alarm generated at a plurality of monitoring points installed in one or more facilities in the facility;
Based on the alarm information acquired by the alarm information acquisition unit, an alarm information totaling unit that calculates a status determination index indicating a ratio of alarm generation monitoring points that are in an alarm state among the plurality of monitoring points; ,
Based on the state determination index calculated by the alarm information totaling unit, a state determination unit that determines an operation state of the facility;
A facility monitoring apparatus comprising: an output control unit that outputs output control information for outputting information related to the operation state determined by the state determination unit. For the alarm, further comprising a weight setting unit for setting a weight when calculating the state determination index,
The alarm information totaling unit
The facility monitoring apparatus according to claim 1, wherein the state determination index is calculated using the weight set by the weight setting unit. The weight setting unit includes:
The facility monitoring apparatus according to claim 2, wherein the weight is changed according to a duration time after the alarm is generated. The state determination unit
The facility monitoring apparatus according to any one of claims 1 to 3, wherein the operation state is determined by comparing the state determination index and a threshold value. The output control unit
The facility monitoring apparatus according to any one of claims 1 to 4, wherein the output control information for blinking a color corresponding to the operation state determined by the state determination unit is output. . The output control unit
The facility monitoring apparatus according to any one of claims 1 to 5, wherein the output control information for causing display according to the operation state determined by the state determination unit is output. An alarm information acquisition unit acquiring alarm information related to an alarm generated at a plurality of monitoring points installed in one or more facilities in the facility; and
Based on the alarm information acquired by the alarm information acquisition unit, the alarm information totaling unit calculates a state determination index indicating a ratio of alarm generation monitoring points in the alarm state among the plurality of monitoring points. And steps to
A state determining unit determining the operational state of the facility based on the state determination index calculated by the alarm information totaling unit;
A facility monitoring method comprising: a step of outputting output control information for causing the output control unit to output information related to the operation state determined by the state determination unit.

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