JP2018185774A - Equipment management device, equipment management system, program, and equipment management method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To understand the correspondence relationship between a monitoring target by a monitoring device and a maintenance target by a maintenance management device. SOLUTION: An equipment database for storing a correspondence relationship between a plurality of monitored devices to be monitored for at least one power state and an operating state, and a plurality of maintenance target devices to be maintained, and a plurality of devices. A monitoring information acquisition unit that acquires monitoring information indicating at least one of the power status and operating status of the monitored equipment from the monitoring device for monitoring the monitored equipment, and maintenance for performing maintenance management of multiple maintenance target equipment. Using the maintenance management information acquisition unit that acquires maintenance management information of maintenance target equipment from the management device and the equipment database, the first monitoring target device and the first maintenance target device among multiple monitoring target devices and multiple maintenance target devices Provided is an equipment management device including a specific unit that specifies the correspondence between the above and a display control unit that links the monitoring information of the first monitored device and the maintenance management information of the first maintenance target device and outputs them to the display device. .. [Selection diagram] FIG. 12

Description

  The present invention relates to an equipment management apparatus, equipment management system, program, and equipment management method.

Conventionally, a monitoring device that monitors the power state or operating state of the facility and a maintenance management device that performs maintenance management of the facility have been proposed (see, for example, Patent Documents 1 to 6).
Patent Document 1 Japanese Patent No. 5517724 Patent Document 2 Japanese Patent No. 4766353 Patent Document 3 Japanese Patent Application Laid-Open No. 2007-293889 Patent Document 4 Japanese Patent Application Laid-Open No. 2013-92858 Patent Document 5 Japanese Patent Application Laid-Open No. 2011-181888 6 Japanese Patent No. 4937006

  Since the monitoring target by the monitoring device and the maintenance target by the maintenance management device are managed separately, the correspondence is difficult to understand.

  In order to solve the above-described problem, a facility management apparatus may be provided in the first aspect of the present invention. The facility management apparatus includes a facility database that stores correspondence relationships between a plurality of monitoring target devices that are at least one monitoring target of a power state and an operating state and a plurality of maintenance target devices that are targets of maintenance management. Good. The facility management apparatus may include a monitoring information acquisition unit that acquires monitoring information indicating at least one of a power state and an operating state of the monitoring target device from a monitoring device for monitoring a plurality of monitoring target devices. The facility management device may include a maintenance management information acquisition unit that acquires maintenance management information of a maintenance target device from a maintenance management device for performing maintenance management of a plurality of maintenance target devices. The facility management apparatus may include a specifying unit that identifies a correspondence relationship between the first monitoring target device and the first maintenance target device among the plurality of monitoring target devices and the plurality of maintenance target devices using the facility database. The facility management apparatus may include a display control unit that links the monitoring information of the first monitoring target device and the maintenance management information of the first maintenance target device and outputs the linked information to the display device.

  The facility management apparatus may include a registration information receiving unit that receives monitoring side registration information including identification information of at least one monitoring target device newly registered as a monitoring target from the monitoring apparatus. The facility management apparatus may include a registration processing unit that registers at least one monitoring target device in the facility database based on the received monitoring-side registration information.

  The registration processing unit associates at least one monitoring target device with at least one maintenance target device when at least one maintenance target device corresponding to at least one monitoring target device is already registered in the facility database. Good. If at least one maintenance target device corresponding to at least one monitoring target device is not registered in the facility database, the registration processing unit may register at least one monitoring target device in a new record in the facility database. .

  The registration processing unit may allow the user to select at least one maintenance target device from among the plurality of maintenance target devices that are not associated with any of the plurality of monitoring target devices.

  The registration information receiving unit may receive maintenance side registration information including identification information of at least one maintenance target device newly registered as a maintenance management target from the maintenance management device. The registration processing unit may register at least one maintenance target device in the facility database based on the received maintenance side registration information.

  The monitoring device may manage a monitoring database that stores information on a plurality of devices to be monitored. The maintenance management apparatus may manage a maintenance management database that stores information on a plurality of maintenance target devices. The registration processing unit may cause the maintenance management device to register the monitoring target device newly registered as a monitoring target in the monitoring database of the monitoring device in the maintenance management database. The registration processing unit may cause the monitoring device to register the maintenance target device newly registered in the maintenance management database of the maintenance management device as a maintenance management target in the monitoring database.

  The monitoring database may store a plurality of monitoring target devices in a first hierarchical structure. The maintenance management database may store a plurality of maintenance target devices in a second hierarchical structure. The facility management apparatus may further include a hierarchical synchronization processing unit that synchronizes the first hierarchical structure of the monitoring database and the second hierarchical structure of the maintenance management database.

  The monitoring information acquisition unit may acquire a trigger including identification information of the first monitoring target device among the plurality of monitoring target devices from the monitoring device. The specifying unit may access the facility database and specify a first maintenance target device associated with the first monitoring target device among the plurality of maintenance target devices. The maintenance management information acquisition unit may acquire maintenance management information of the first maintenance target device specified by the specifying unit from the maintenance management device. The display control unit may cause the display device to output maintenance management information of the first maintenance target device in association with the trigger.

  The display control unit may cause the display device to output an alert screen that notifies the occurrence of the trigger. The display control unit may cause the display device to output maintenance management information of the first maintenance target device in response to receiving an instruction to display details of the trigger on the alert screen.

  The display control unit may display a plurality of types of maintenance management information related to one maintenance target device using a plurality of windows by the display device. The display control unit may switch the plurality of windows according to the trigger and display the maintenance management information of the first maintenance target device on the display device.

  The maintenance management information acquisition unit may acquire maintenance management information of the first maintenance target device among the plurality of maintenance target devices. The display control unit may cause the display device to output maintenance management information of the first maintenance target device. In response to an instruction to display monitoring information of the monitoring target device corresponding to the first maintenance target device from the user in a state where the maintenance management information of the first maintenance target device is output to the display device, The facility database may be accessed to identify the first monitoring target device associated with the first maintenance target device among the plurality of monitoring target devices. The monitoring information acquisition unit may acquire monitoring information of the first monitoring target device specified by the specifying unit from the monitoring device. The display control unit may display the monitoring information of the first monitoring target device on the display device in association with the maintenance management information of the first maintenance target device.

  The display control unit provides the display device with access information including the identification information of the monitoring device and the identification information of the first monitored device, and the display device monitors the display screen displaying the monitoring information of the first monitored device. It may be acquired from the device.

  The display control unit may allow acquisition of the display screen by the display device by including authentication information for the monitoring device in the access information.

  The display control unit may be capable of setting screen layout information for designating display contents for each of a plurality of windows displayed on the display device.

  The display control unit is configured to monitor at least one monitoring target device among the plurality of monitoring target devices or at least one maintenance target among the plurality of maintenance target devices with respect to at least one of the plurality of windows. The display of the maintenance management information of the device may be settable.

  The display control unit may be configured to display information provided by an external server connected via the Internet on at least one of the plurality of windows.

  The screen layout information may include information indicating the address of the Web page to be acquired from the external server.

  In the second aspect of the present invention, an equipment management system may be provided. The facility management system may include the facility management device according to the first aspect. The facility management system may include a monitoring device. The facility management system may include a maintenance management device.

  In the third aspect of the present invention, a program may be provided. The program functions as a facility database that stores a correspondence relationship between a plurality of monitoring target devices to be monitored in at least one of a power state and an operating state and a plurality of maintenance target devices to be subjected to maintenance management. You may let me. The program may cause the computer to function as a monitoring information acquisition unit that acquires monitoring information indicating at least one of a power state and an operating state of the monitoring target device from a monitoring device for monitoring a plurality of monitoring target devices. The program may cause the computer to function as a maintenance management information acquisition unit that acquires maintenance management information of a maintenance target device from a maintenance management device for performing maintenance management of a plurality of maintenance target devices. The program may cause the computer to function as a specifying unit that specifies a correspondence relationship between the first monitoring target device and the first maintenance target device among the plurality of monitoring target devices and the plurality of maintenance target devices using the facility database. The program may cause the computer to function as a display control unit that causes the monitoring information of the first monitoring target device and the maintenance management information of the first maintenance target device to be linked and output to the display device.

  In the fourth aspect of the present invention, a facility management method may be provided. The facility management method includes a step of storing a correspondence relationship between a plurality of monitoring target devices to be monitored at least one of an electric power state and an operating state and a plurality of maintenance target devices to be maintenance management in a facility database. You may prepare. The facility management method may include a step of acquiring monitoring information indicating at least one of a power state and an operating state of the monitoring target device from a monitoring device for monitoring a plurality of monitoring target devices. The facility management method may include a step of acquiring maintenance management information of a maintenance target device from a maintenance management device for performing maintenance management of a plurality of maintenance target devices. The facility management method may include a step of specifying a correspondence relationship between the first monitoring target device and the first maintenance target device among the plurality of monitoring target devices and the plurality of maintenance target devices using the facility database. The facility management method may include a step of linking the monitoring information of the first monitoring target device and the maintenance management information of the first maintenance target device and outputting them to the display device.

  It should be noted that the above summary of the invention does not enumerate all the necessary features of the present invention. In addition, a sub-combination of these feature groups can also be an invention.

The equipment management system concerning this embodiment is shown. The operation | movement of the equipment management system which concerns on this embodiment is shown. Fig. 4 shows an integrated user interface. A display screen when the operation state button is operated is shown. An equipment tree diagram is shown. The display screen when the trend button is operated is shown. The other display screen at the time of operating a trend button is shown. The display screen when the alarm button is operated is shown. The display screen of the diagnostic information about the target equipment is shown. The detailed diagnostic information display screen about the target equipment is shown. An alert screen pop-up window is shown. 2 shows an exemplary configuration of a computer according to the present embodiment. The operation | movement of the equipment management system which concerns on this embodiment is shown. The operation of the information display process of the maintenance target device is shown. The operation of the information display processing of the monitoring target device is shown. The operation of interrupt processing is shown. An example of an equipment database is shown. The display screen of the maintenance management information displayed in association with the trigger is shown. 2 shows an exemplary configuration of a computer according to the present embodiment.

  Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention according to the claims. In addition, not all the combinations of features described in the embodiments are essential for the solving means of the invention.

<First Embodiment>
[1. Equipment Management System Configuration]
FIG. 1 shows an equipment management system 1 according to the present embodiment. The facility management system 1 comprehensively manages a plurality of facilities 110 arranged in a plurality of areas 100, and includes an energy management system 2, a facility monitoring system 3, a maintenance system 4, and a management unit 5. Prepare.

[1-1. area]
Area 100 includes at least one facility 110. For example, area 100 may be an energy management unit (EMU) that includes one or more facilities 110 that can monitor energy consumption or supply. As an example, the area 100 may be a plant, a data center, a store, a distribution center, a building, a condominium, a facility, a production line, and the like, and further subdivided parts (for example, a building in a plant, a floor in a building). Room, single facility 110, etc.). Each area 100 may have a power state sensor 101.

  The power status sensor 101 measures the power status of the area 100 and transmits it to the energy management system 2 via the network 150 (for example, the Internet or a dedicated line). For example, the power state sensor 101 may be a smart meter. The power state may be at least one of power consumption, generated power, current value, and voltage value. In addition, instead of the power state sensor 101 directly transmitting the measurement value to the energy management system 2, a collection device (not shown) collects the measurement value from the power state sensor 101 in the plurality of areas 100 and transmits it to the energy management system 2. May be. Further, the power state sensor 101 may be provided for each facility 110. As an example, the power state sensor 101 may be provided for each facility 110 as the area 100 or may be provided for each facility 110 included in the area 100.

[1-2. Facility]
The facility 110 is an instrument, machine, or device driven by electric power. The facility 110 may be a monitoring unit by the facility monitoring system 3.

  For example, the equipment 110 includes a machining center, a transformer, a rotating machine, a servo press machine, an inspection device, a welding machine, a compressor, a receiving / draining equipment, an air conditioner, a generator, a battery, a freezer, a sensor, a server, a showcase, a transporting device, And at least one of other machines. Furthermore, at least one of a server, a controller, a network, a peripheral device, and the like included in the control system for the facility 110 may be another facility 110. Here, a machining center is a machine tool that has an automatic tool change function and performs different types of machining such as milling, boring, drilling, and tapping in accordance with the purpose, and has at least one rotating machine. You can do it. The generator may be a private generator with a gas engine, a cogeneration (thermoelectric supply) system, or the like. As the sensor, a diversion sensor for gas and water, a power sensor, and the like are used. The sensor may be a smart sensor that wirelessly communicates digital measurement values.

  These facilities 110 may be installed according to the type of area 100. For example, when the area 100 is a plant, the equipment 110 includes a machining center, a transformer, a rotating machine, a servo press machine, an inspection device, a welding machine, a compressor, a receiving and draining equipment, an air conditioner, a generator, a battery, and a power sensor. , And a diversion sensor or the like, and these may constitute an assembly production line. When the area 100 is a data center, the facility 110 may be one or more of a battery, a power sensor, a server, and an air conditioner. When the area 100 is a store, the facility 110 may be one or more of a showcase, a freezer, a power sensor, a diversion sensor, and an air conditioner.

  Each facility 110 may include a diagnosis unit 112 and a diagnosis information storage unit 113.

  The diagnosis unit 112 diagnoses the facility 110 and supplies diagnosis information indicating the result to the diagnosis information storage unit 113. For example, the diagnosis unit 112 may perform diagnosis by measuring the operating state of the facility 110 with a sensor (not shown). The operating state may be a state different from the power state. The diagnosis unit 112 may perform data analysis in units of milliseconds to diagnose whether there is an abnormality due to a failure, or may perform data analysis in units of several months to diagnose whether there is an abnormality due to deterioration. The diagnosis information may include whether or not the facility 110 is normal, a measured value and a measurement time by the sensor, an operation condition of the facility 110 at the measurement time, and the like.

  For example, when the facility 110 is a rotating machine or the like, the diagnosis unit 112 may measure the vibration state as an operation state and perform diagnosis. As an example, the diagnosis unit 112 may use an acceleration, speed, or transition sensor, and perform a diagnosis by an absolute determination method or a relative determination method by performing FFT analysis of a measurement result on high frequency or low frequency.

  Further, when the facility 110 is a battery, the diagnosis unit 112 may perform diagnosis by measuring temperature, internal resistance, and / or voltage as an operation state. As an example, the diagnosis unit 112 may use a temperature sensor, an internal resistance sensor, and / or a voltage sensor to perform a diagnosis by comparing a measured value with a reference threshold value.

  When the facility 110 is a server, a controller, a network, a peripheral device, or the like of the control system, the diagnosis unit 112 may obtain an operation state as shown in Table 1 below and perform diagnosis.

  The diagnosis unit 112 may measure temperature / humidity, carbon dioxide concentration, illuminance, wind direction / wind speed, rainfall, and the like and use it for diagnosis.

  The diagnostic information storage unit 113 holds the diagnostic information supplied from the diagnostic unit 112. The diagnostic information storage unit 113 can communicate with the facility monitoring system 3 via the network 150 (for example, the Internet or a dedicated line).

  The diagnosis unit 112 and the diagnosis information storage unit 113 may be provided in the equipment monitoring system 3 without being provided in the equipment 110. In this case, a sensor for monitoring the operating state may be provided in the facility 110, and the diagnosis unit 112 may perform diagnosis based on the measurement value transmitted from the sensor and store the diagnosis information in the diagnosis information storage unit 113.

[1-3. Energy management system]
The energy management system 2 performs power control on the customer area 100 of the energy management system 2, and may be a cloud server as an example. The customer of the energy management system 2 is also a customer of the facility management system 1 as an example in this embodiment. The energy management system 2 includes a power monitoring database 20, a power monitoring unit 21, a display control unit 22, a power control unit 23, and a trigger generation unit 24.

  The power monitoring database 20 accumulates and stores measurement values transmitted from the power state sensor 101 in association with customer identification information and area 100 identification information. In addition, the identification information with respect to the same object (a customer, the area 100, the installation 110 etc. as an example) may differ between the electric power monitoring database 20, the below-mentioned equipment database 30 and the maintenance database 40. The association of the identification information may be stored in the integrated database 50 in the management unit 5 described later.

  The power monitoring unit 21 monitors the power state in each of the plurality of areas 100 and detects the presence or absence of an abnormality. The power monitoring unit 21 may detect the presence / absence of an abnormality using the measurement value received from the power state sensor 101 and store the abnormality in the power monitoring database 20 in association with the measurement value. Further, the power monitoring unit 21 may supply the presence / absence of an abnormality to the power control unit 23, and may supply the content to the trigger generation unit 24 when an abnormality is detected.

  The display control unit 22 outputs a monitoring result from the power monitoring unit 21 to a display device (not shown). The display control unit 22 may output the monitoring result by the power monitoring unit 21 together with the graph of the power state.

  The display control unit 22 may output the contents when an abnormality is detected by the power monitoring unit 21. Thereby, the customer can grasp the abnormal state and change the power state before the facility 110 breaks down.

  The power control unit 23 controls power supply based on the monitoring result by the power monitoring unit 21 in order to realize energy saving. For example, the power control unit 23 may control the power supply by calculating an energy performance index (EnPI) for each area 100 and comparing it with a preset energy baseline (EnB). The power control unit 23 may constantly monitor the received power and perform demand control so that the received power does not exceed the reference value. As an example, when it is estimated that the received power in the area 100 exceeds the reference value, the power control unit 23 may warn the customer or prompt the customer to change the operation schedule. Then, the output of at least a part of the equipment 110 in the area 100 may be reduced or the power may be turned off. Instead, the power control unit 23 refers to the fluctuation pattern of the received power within a reference period (for example, one day, one week, etc.) derived from the monitoring result of the received power, and the received power has the reference value. You may make the display control part 22 output the warning with respect to a customer at the timing estimated to exceed. In addition, the power control unit 23 may calculate the power demand prediction and supply / demand balance in each area 100 and output the calculated power demand to the display control unit 22. The reference value of the received power may be contract power between the customer and the power company. When the power supply to customers is restricted by the Electricity Business Law in summer, the upper limit value may be used as the reference value.

  The trigger generating unit 24 generates a facility monitoring trigger according to the monitoring result of the power state in each of the plurality of areas 100 and transmits the facility monitoring trigger to the facility monitoring system 3.

  In addition, as long as the energy management system 2 is provided with the electric power monitoring part 21 and the trigger generation part 24, it does not need to be provided with another structure.

[1-4. Equipment monitoring system]
The equipment monitoring system 3 monitors the equipment 110 of the customer of the equipment monitoring system 3 in order to prevent a failure, and may be a cloud server as an example. The customer of the facility monitoring system 3 is also a customer of the facility management system 1 as an example in this embodiment. The facility monitoring system 3 includes a facility database 30, a facility monitoring unit 31, a display control unit 33, and a facility specifying unit 34.

  The equipment database 30 holds a correspondence as to which of the plurality of areas 100 each of the plurality of equipments 110 belongs to. For example, the facility database 30 may store customer identification information, identification information of each area 100, and identification information of the facility 110 belonging to the area 100 in association with each other. In addition, the facility database 30 may accumulate and store diagnostic information acquired from the diagnostic information storage unit 113 of the facility 110 for each facility 110.

  The equipment monitoring unit 31 monitors the operating state of each of the plurality of equipments 110 and includes a diagnostic information acquisition unit 310. The diagnostic information acquisition unit 310 acquires diagnostic information from the diagnostic information storage unit 113 held by each of the plurality of facilities 110 and stores it in the facility database 30.

  The display control unit 33 outputs a periodic report of diagnostic information of each facility 110 to a display device (not shown). Thereby, the customer can grasp | ascertain the state of the equipment 110, a remaining life, etc. FIG. Further, the customer can grasp the resource shortage of the equipment 110 to be controlled by the control system or the intermittent failure with unknown cause by the diagnostic information of the equipment 110 such as servers, controllers, networks and peripheral devices included in the control system. Can be predicted. The display control unit 33 may graph and output the measurement values, operating conditions, and the like included in the diagnostic information.

  Moreover, the display control part 33 may output the content of the said diagnostic information, when diagnostic information shows abnormality of the installation 110. FIG. Thereby, the customer can grasp the abnormal state before the equipment 110 breaks down, performs maintenance, operation stop, etc. of the equipment 110, and can operate the equipment 110 stably. The display control unit 33 may output a history of diagnostic information indicating abnormality.

  The facility specifying unit 34 uses the facility database 30 in response to receiving the facility monitoring trigger from the trigger generating unit 24, and selects at least one facility belonging to the target area that caused the trigger from the plurality of areas 100. It is specified as a target facility to be monitored by the facility monitoring system 3. Here, the target area causing the trigger is an area where an abnormality in the power state is detected. The facility identification unit 34 may supply identification information of the identified target facility to the diagnostic information acquisition unit 310 to prompt acquisition of diagnostic information about the target facility.

  In addition, as long as the equipment monitoring system 3 is provided with the equipment database 30 and the equipment specifying part 34, it does not need to be provided with another structure.

[1-5. Maintenance system]
The maintenance system 4 maintains a maintenance history of the facility 110 of the customer of the maintenance system 4 and provides a maintenance plan, and may be a cloud server as an example. The maintenance plan may be, for example, a schedule for inspection, repair, and replacement of the facility 110 and its parts. The customer of the maintenance system 4 is also a customer of the facility management system 1 as an example in this embodiment. The maintenance system 4 includes a maintenance database 40, a maintenance plan generation unit 41, and a display control unit 42.

  The maintenance database 40 stores a maintenance history regarding at least one of inspection, repair, and replacement of each of the plurality of facilities 110. For example, the maintenance database 40 includes the customer identification information, the identification information of each facility 110, the identification information of the area 100 where the facility 110 is installed, the identification information of the parts included in the facility 110, and the facilities 110 and parts. An equipment ledger in which past inspections, repair and replacement histories, the number of spare parts held, and the like are associated with each other may be stored. The maintenance database 40 may store inspection, repair, and replacement information transmitted from the maintenance terminal 400 held by an operator of the maintenance system 4 via the network 150 (for example, the Internet or a dedicated line). The maintenance terminal 400 may be a wearable terminal such as glasses.

  The maintenance database 40 may store a maintenance plan generated by the maintenance plan generation unit 41 for each facility 110.

  The maintenance plan generation unit 41 uses the maintenance history stored in the maintenance database 40 to generate a maintenance plan for at least one of inspection, repair, and replacement for each facility 110 and supplies the maintenance plan to the display control unit 42 and the maintenance database 40. To do. For example, the maintenance plan generation unit 41 diagnoses the degree of deterioration of the equipment 110 from the result of periodic inspection, and performs maintenance so that the inspection, repair, or replacement is performed before the timing at which a failure or performance degradation is estimated. A plan may be generated.

  The maintenance plan generation unit 41 may generate a maintenance plan based on the diagnostic information acquired from each of the plurality of facilities 110 by the diagnostic information acquisition unit 310. For example, the maintenance plan generation unit 41 refers to the diagnosis information stored in the facility database 30 and the inspection result stored in the maintenance database 40 at the timing when the periodic report is output by the facility monitoring system 3. A maintenance plan may be generated by diagnosing the degree of deterioration.

  In addition, the maintenance plan generation unit 41 may determine the priority of maintenance among the plurality of facilities 110 based on the power state collected by the power monitoring unit 21 and the diagnostic information collected by the diagnostic information acquisition unit 310. For example, the maintenance plan generation unit 41 calculates the degree of deterioration of each facility 110 from the power state and diagnosis information for the plurality of facilities 110, and checks the facility 110 with the earlier timing at which failure or performance degradation is estimated, The priority may be determined so that repair or replacement is performed and the equipment 110 having no abnormality is postponed to inspection, repair or replacement. Instead of / in addition to this, the maintenance plan generation unit 41 calculates the severity or frequency of abnormality of the power abnormality from the collected power state, and uses the value to degrade each facility 110 calculated from the diagnostic information or the like. The priority may be determined by weighting the degree. The maintenance plan generation unit 41 may read the power state from the power monitoring database 20 and the diagnostic information from the equipment database 30, and may calculate the degree of deterioration, the degree of abnormality seriousness, etc. by multivariate analysis.

  The display control unit 42 outputs the maintenance state of each facility 110 to a display device (not shown). Thereby, the customer can grasp | ascertain the maintenance state of the installation 110. FIG. The display control unit 42 may output a maintenance history. Further, the display control unit 42 may output the equipment ledger stored in the maintenance database 40 or may output the maintenance plan generated by the maintenance plan generation unit 41.

[1-6. Management Department]
The management unit 5 manages a plurality of facilities 110 in an integrated manner, and may be a cloud server as an example. The management unit 5 includes an integrated database 50, a display control unit 51, a power state comparison unit 52, and a synchronization processing unit 53.

  The integrated database 50 links customer, area 100, and facility 110 identification information between the energy management system 2, the facility monitoring system 3, the maintenance system 4, and the facility management system 1. For example, the integrated database 50 stores the customer identification information and password in each of the energy management system 2, the facility monitoring system 3, and the maintenance system 4 in association with the customer identification information and password in the facility management system 1. . The integrated database 50 corresponds to the identification information of the area 100 and the facility 110 in each of the energy management system 2, the facility monitoring system 3 and the maintenance system 4, and the identification information of the area 100 and the facility 110 in the facility management system 1. Add and remember.

  The display control unit 51 causes the display device 510 to output the diagnostic information of the target facility 110 acquired by the diagnostic information acquisition unit 310. In addition to this, the display control unit 51 may maintain the logged-in state in the energy management system 2 and the facility monitoring system 3, preferably further in the maintenance system 4, and provide an integrated user interface for these systems.

  Here, the integrated user interface is an interface that enables each of the energy management system 2, the equipment monitoring system 3, and the maintenance system 4 to exchange information with the customer, and provides an integrated management environment. For example, the integrated user interface may be a multi-view graphical user interface (GUI) in which display screens by at least the energy management system 2, the facility monitoring system 3, and the maintenance system 4 are arranged. Details of the display contents of the integrated user interface will be described later with reference to FIGS.

  The power state comparison unit 52 compares the power state before and after repair or replacement of one facility 110 in the area 100 to which the one facility 110 belongs. For example, the power state comparison unit 52 may refer to the power monitoring database 20 and compare the power states at the timings before and after the repair or replacement for the area 100 including the repaired or replaced facility 110. The power state comparison unit 52 may provide the comparison result to the display control unit 51. Thereby, it is possible to determine whether or not the power state has been normalized by repair or replacement.

  The synchronization processing unit 53 synchronizes the correspondence relationship between the plurality of areas 100 and the plurality of facilities 110 between the power monitoring database 20 and the facility database 30, preferably between the maintenance database 40. For example, the synchronization processing unit 53 may synchronize when a customer logs into the facility management system 1. In addition, the synchronization processing unit 53 may be synchronized by updating the contents of each database to the latest information in response to an operation instruction from the customer when the customer adds, moves, or removes the equipment 110, or periodically. Good.

  According to the facility management system 1 described above, a facility monitoring trigger is generated in accordance with the monitoring result of the power state in each of the plurality of areas 100, and at least one facility 110 belonging to the target area 100 that has caused the trigger is generated. Diagnostic information is acquired. Therefore, using the diagnostic information of the equipment 110 in the area 100 where the abnormality has occurred in the power state, the equipment 110 in which the abnormality has occurred can be identified at an early stage, and can be inspected, repaired, or replaced. When the equipment 110 is operated again and an abnormality occurs in the power state, the equipment 110 in which the abnormality has occurred is also identified early, and is inspected, repaired, or replaced. Thus, since the equipment 110 can be operated in an appropriate state without abnormality, wasteful consumption of energy can be suppressed and consumption can be reduced.

  The facility management system 1 does not include any other configuration as long as it includes at least the power monitoring unit 21, the facility database 30, the trigger generation unit 24, the facility identification unit 34, and the diagnostic information acquisition unit 310. May be.

[2. Operation of equipment management system]
FIG. 2 shows the operation of the facility management system 1 according to the present embodiment. In this operation, the facility database 30 has already stored the association of each of the plurality of facilities 110 to which of the plurality of areas 100.

  First, the display control unit 51 logs into each of the energy management system 2, the facility monitoring system 3, and the maintenance system 4 (step S11). For example, in response to receiving the customer's identification information and password input in the facility management system 1 from the customer, the display control unit 51 in each of the energy management system 2, the facility monitoring system 3, and the maintenance system 4 The identification information and password of the corresponding customer may be read from the integrated database 50 and logged into each system.

  Next, the synchronization processing unit 53 synchronizes the correspondence relationship between the plurality of areas 100 and the plurality of facilities 110 among the power monitoring database 20, the facility database 30, and the maintenance database 40 (step S13).

  Next, the display control unit 51 causes the display device 510 to start displaying the integrated user interface (step S15). Thereby, at least the display screens by the energy management system 2, the facility monitoring system 3, and the maintenance system 4 are displayed side by side, and information can be exchanged between each of these systems and the customer. For example, when one area 100 or facility 110 is selected by the customer in the integrated user interface, the display control unit 51 refers to the integrated database 50, and the energy management system 2 for the selected area 100 or facility 110, Identification information in each of the equipment monitoring system 3 and the maintenance system 4 is specified, and information associated with the identification information is read from the energy management system 2, the equipment monitoring system 3, and the maintenance system 4 and displayed on the display device 510.

  Here, in the display screen of the energy management system 2, the display control unit 51 may cause the display device 510 to output a screen indicating the power supply / demand relationship between the plurality of areas 100.

  Further, in the display screen of the facility monitoring system 3, the display control unit 51 may display a plurality of types of diagnosis information acquired by the diagnosis information acquiring unit 310 for one facility 110 using a plurality of windows. For example, the display control unit 51 may display diagnostic information such as temperature, internal resistance, voltage, and the like on separate windows for the battery as the facility 110.

  Next, the power monitoring unit 21 monitors the power state in each of the plurality of areas 100 (step S17). For example, the power monitoring unit 21 may monitor the power state of the equipment 110 belonging to each of the plurality of areas 100. The power monitoring unit 21 may monitor the power state using the power state sensor 101 for each area 100. The power monitoring unit 21 may detect an abnormality when the power consumption in one area 100 exceeds a preset upper limit value (rated power consumption as an example). In addition / alternatively, the power monitoring unit 21 may detect an abnormality in response to the power consumption being below the lower limit value.

  Here, the power state sensor 101 may transmit the measurement value to the power monitoring unit 21 in any format of text (CSV), mail, and digital input (DI). In the text format and the mail format, the measurement values within the measurement period are transmitted side by side. In this case, the power monitoring unit 21 analyzes the received content and generates time-series data of measurement values. For example, when any measurement value exceeds a reference threshold value or exceeds a certain period threshold value (instantaneous value) Instead, the abnormality may be detected by monitoring the time integral value). On the other hand, in the digital input format, a measurement value at one measurement timing is transmitted. In this case, the power monitoring unit 21 detects, for example, when the received measurement value fluctuates with respect to the previous measurement value with respect to the reference fluctuation range, or when fluctuations greater than the reference fluctuation range are continuously detected a predetermined number of times (eg, three times) In addition, an abnormality may be detected.

  Next, the power monitoring unit 21 determines whether there is an abnormality in the power state (step S19). When it is determined that there is no abnormality in the process of step S19 (S19; No), the power monitoring unit 21 proceeds to the process of step S17.

  If it is determined in step S19 that there is an abnormality (S19; Yes), the trigger generation unit 24 generates a facility monitoring trigger and transmits it to the facility monitoring system 3 (step S21). Thereby, according to the monitoring result of the electric power state in each of the plurality of areas 100, a trigger for facility monitoring is generated. For example, when a drill breaks or a cutting piece is caught in the equipment 110 that is a rotating machine in a machining center, an equipment monitoring trigger is generated in response to the detection of an abnormality in the power state.

  Here, the trigger includes the identification information of the target area that caused the trigger to be generated (identification information in the energy management system 2 as an example), the occurrence time and contents of the abnormality that caused the trigger to be generated, etc. May be included.

  The trigger generation unit 24 may transmit a trigger to the management unit 5. In response to receiving the trigger, the display control unit 51 of the management unit 5 may cause the display device 510 to output an alert screen that notifies the customer of the occurrence of the trigger. Details of the alert screen will be described later with reference to FIGS.

  Next, the equipment specifying unit 34 of the equipment monitoring system 3 uses the equipment database 30 to target at least one equipment 110 belonging to the target area 100 that has caused the trigger, that is, the area 100 in which an abnormality in the power state is detected. The equipment is specified (step S23). For example, the equipment specifying unit 34 refers to the integrated database 50, specifies identification information in the equipment monitoring system 3 for the target area 100, and is associated in the equipment database 30 with the area 100 indicated by the identification information. The at least one facility 110 may be specified as the target facility.

  The facility specifying unit 34 may select the target facility based on the diagnosis information acquired from each of the facilities 110 belonging to the target area 100. For example, the equipment specifying unit 34 may specify the equipment 110 whose diagnosis information indicates an abnormality as the target equipment with reference to the equipment database 30.

  Further, the facility specifying unit 34 may select the target facility based on the maintenance history acquired from the maintenance database 40 for each of the facilities 110 belonging to the target area 100. For example, the facility identifying unit 34 may identify at least one facility 110 having the oldest timing of inspection, repair, or replacement as a target facility with reference to the maintenance database 40.

  When the facility specifying unit 34 specifies at least one target facility, the facility specifying unit 34 refers to the maintenance database 40 and / or the facility database 30 and adds one or more other facilities 110 belonging to the same area 100 to the target facility. Also good. For example, the facility specifying unit 34 refers to the maintenance database 40 and uses the facility 110 belonging to the same area 100 and having the same repair as the identified target facility or the facility 110 in which the same parts are replaced as the target facility. In addition to. The facility specifying unit 34 refers to the operation conditions of the facility 110 included in the diagnosis information of the facility database 30 and belongs to the same area 100 and is operated under the same operation conditions as the identified target facility. May be added to the target equipment.

  Further, the facility specifying unit 34 may select the target facility from at least one facility 110 belonging to the target area 100 based on setting information stored in the management unit 5. In this setting information, for each of the plurality of areas 100, which facility 110 is the target facility is set in advance according to the trigger. For example, when there is only one facility 110 that can cause an abnormality in the area 100, this facility 110 may be preset as a target facility.

  And the diagnostic information acquisition part 310 acquires the diagnostic information of the specified target equipment, and the display control part 51 outputs the acquired diagnostic information to the display apparatus 510 (step S25). The diagnostic information acquisition unit 310 may acquire diagnostic information from the facility database 30 at the time of occurrence of the abnormality that caused the trigger to be generated. Instead, the diagnostic information acquisition unit 310 may acquire the latest diagnostic information from the diagnostic information storage unit 113 of the target facility. The display control unit 51 may cause the display device 510 to output the diagnostic information of the target facility in response to receiving an instruction from the customer to display details of the trigger on the alert screen displayed on the display device 510.

  When a plurality of types of diagnostic information for one facility 110 are already displayed in a plurality of windows in the display screen of the facility monitoring system 3, the display control unit 51 has acquired the diagnostic information of the target facility. Accordingly, the corresponding diagnostic information in the target facility may be displayed by switching the plurality of windows. As an example, the display control unit 51 may switch the display so that each window displays the same type of diagnostic information before and after switching. The display control unit 51 may once close the displayed window and then display the diagnostic information of the target facility in at least one window.

  In addition, in the above description, although the equipment monitoring system 3 demonstrated as acquiring the diagnostic information of object equipment, it is good also as the management part 5 acquiring. For example, the management unit 5 includes an acquisition unit that acquires a trigger from the trigger generation unit 24, a facility identification support unit that identifies the target facility in the target area 100 by the facility monitoring system 3 according to the trigger, and the identified target facility. A diagnostic information acquisition unit for acquiring the diagnostic information from the equipment monitoring system 3. Instead, the management unit 5 is specified as an acquisition unit that acquires a trigger from the trigger generation unit 24, and an equipment specifying unit that specifies the target equipment in the target area 100 using the equipment database 30 according to the trigger. A diagnostic information acquisition unit that acquires diagnostic information of the target equipment.

[3. Display example of integrated user interface]
FIG. 3 shows an integrated user interface. The integrated user interface includes a display screen (1) of the energy management system 2, a display screen (2) of the equipment monitoring system 3, a display screen (3) of the maintenance system 4, and a display screen (4) of other subsystems. It may be a side-by-side graphical user interface (GUI). The integrated user interface displays an operation state button 5101 for displaying the operation state of the area 100 or the facility 110, a trend button 5102 for displaying the transition of various measurement values for the area 100 or the facility 110, and an alert screen. An alarm button 5103 may be displayed. Details of display contents when an operation is performed on each button will be described later with reference to FIGS.

  FIG. 4 shows a display screen when the operation state button 5101 is operated. When the operation state button 5101 is operated from the state of FIG. 3, the operation state of the area 100 or the facility 110 may be displayed on the display screens of the energy management system 2 and the facility monitoring system 3 in the integrated user interface.

  For example, in the display screen of the energy management system 2, as shown in FIG. 4, a screen showing the power supply / demand relationship between the plurality of areas 100 may be displayed. For example, in the display screen of FIG. 4, as an example, a plurality of “K1 Building”, “K2 Building”, “EN Building”, “Management Building”, “Solar Power Generation Area”, etc. The power supply / demand relationship between the areas 100 is shown. This display screen may further display the generated power, the power self-sufficiency rate, the carbon dioxide emission amount, and the like in the entire area 100. Further, a selection button 5111 for selecting the size of the target area 100 may be displayed on this display screen. When the selection button 5111 is operated and “plant” is selected as the size of the area 100, for example, the display content may be updated with the entire plant as one area 100.

  FIG. 5 shows an equipment tree diagram. When the operating status is displayed on the display screens of the energy management system 2 and the equipment monitoring system 3, the equipment tree diagram is displayed on the display screen of the maintenance system 4 based on the equipment ledger stored in the maintenance database 40. May be. For example, in the display screen of FIG. 5, the “solar power generation area” in the plant of “XY Mfg.” Has “first line” and “second line”, and “first line” is “solar panel a”. , “Solar panel b”,... Also, it is shown that “K1 building” has “first machining center” and “second machining center”,..., And “first machining center” includes “rotating machine a”, “rotating machine b”,. Yes.

  FIG. 6 shows a display screen when the trend button 5102 is operated. When the trend button 5102 is operated from the state of FIG. 3, the transition of the measured value of the power state of the area 100 measured by the power state sensor 101 is displayed on the display screen of the energy management system 2 in the integrated user interface. The display screen of the monitoring system 3 may display the transition of the measured value measured by the operation state sensor of the facility 110. For example, in the display screen of FIG. 6, the hourly power generation amount measured by the power state sensor 101 for the “first line” and “second line” of the “solar power generation area” is a graph of the amount of sunlight. And is displayed together. In the figure, the horizontal axis indicates time, and the vertical axis indicates power generation amount and sunshine amount.

  FIG. 7 shows another display screen when the trend button 5102 is operated. For example, on the display screen of FIG. 7, the transition of power consumption for each hour measured by the power state sensor 101 for “first machining center”, “second machining center”,. In the figure, the horizontal axis indicates time, and the vertical axis indicates power consumption.

  FIG. 8 shows a display screen when the alarm button 5103 is operated. When the alarm button 5103 is operated from the state of FIG. 3, an alert screen may be displayed on the display screen of the equipment monitoring system 3 in the integrated user interface. The alert screen includes a plurality of alert information, and the alert information may include, for example, the name of the area 100 that caused the trigger, the occurrence time and content of the abnormality that caused the trigger, and the like. In FIG. 8, as an example of the alert information, it is shown that the power consumption has rapidly increased in the area 100 which is “K1 building” of the XY factory.

  The alert screen may include a search box for searching for alert information. In addition, on the alert screen, a radio button 5104 for changing the status of the alert information from unconfirmed to confirmed may be displayed in association with each alert information, and the operation of the radio button 5104 is not performed. The alert information may be displayed blinking, and the alert information that has been operated may be displayed without blinking.

In addition, a detail display button 5105 for displaying details of the trigger that caused the alert may be displayed on the alert screen in association with each alert information.
FIG. 9 shows a display screen of diagnostic information about the target equipment. When the detail display button 5105 is operated from the state of FIG. 8 and FIG. 11 described later, diagnostic information about at least one target facility specified by the facility specifying unit 34 is acquired, and the display screen of the facility monitoring system 3 Is displayed. In FIG. 9, as an example of diagnostic information, diagnostic information about equipment 110 such as “rotating machine a” and “rotating machine b” of “machining center” in “K1 building” of the XY factory is shown. This diagnostic information indicates that there is an abnormality in “rotating machine a”.

  In addition, on the display screens of the energy management system 2 and the maintenance system 4, information on each system at the time of occurrence of the latest abnormality or the cause of generating the trigger may be displayed as information on the target equipment. .

  FIG. 10 shows a detailed diagnostic information display screen for the target equipment. When any target facility is selected from the state of FIG. 9, detailed diagnostic information of the selected target facility is displayed. For example, in FIG. 10, in response to the selection of “rotating machine a” from the state of FIG. 9, a graph of the vibration state that is the diagnostic information is displayed. In this graph, as an example, it is shown that a cutting piece is caught in the “rotating machine a”, and the vibration value rapidly increases and exceeds the first threshold value for notifying the customer to be careful. In response to the vibration value exceeding the first threshold value, the customer may check “rotating machine a”. FIG. 10 also shows a second threshold value for notifying the customer that “rotating machine a” is in a dangerous state. In response to the vibration value exceeding the second threshold, the customer may repair or replace “rotating machine a”. In response to the vibration value exceeding the first threshold value and / or the second threshold value, the power control unit 23 of the energy management system 2 turns off the power of the “rotating machine a” or an area including the “rotating machine a”. The power control for 100 may be limited.

  FIG. 11 shows a pop-up window of the alert screen. In response to the management unit 5 receiving the trigger from the trigger generation unit 24, an alert screen for notifying the customer of the occurrence of the trigger may be displayed as a pop-up window on the integrated user interface. This alert screen may display at least one alert information whose status is unconfirmed. By displaying the alert screen, the customer can immediately know that an abnormality has occurred in the power state.

Second Embodiment
[4. Equipment Management System Configuration]
FIG. 12 shows an equipment management system 1A according to the present embodiment. In the equipment management system 1A according to the present embodiment, the same reference numerals are given to substantially the same operations as those of the equipment management system 1 shown in FIG.

  In the facility management system 1A according to the present embodiment, the area 100 may be the entire site of the customer (tenant) of the energy management system 2 and / or the facility monitoring system 3. In other words, the energy management system 2 and the facility monitoring system 3 may be able to monitor the power state and / or the operating state even on a customer basis.

  The energy management system 2 and the facility monitoring system 3 are examples of monitoring devices, and each monitor a plurality of monitoring target devices 710. The monitoring target device 710 is at least one monitoring target of the power state and the operating state, and may be any one of the facility 110, the diagnosis unit 112, and the power state sensor 101 as an example. The diagnosis unit 112 may measure the number of rotations of a rotating machine as the equipment 110, or may measure the pressure in the equipment 110. The power state and the operating state of the monitoring target device 710 are aggregated with the power state and the operating state of the other monitoring target device 710 via a repeater (not shown) and supplied to the energy management system 2 and / or the facility monitoring system 3. Good. The trigger generation unit 24 of the energy management system 2 may generate a trigger according to the monitoring result of the power state in each of the plurality of areas 100 and transmit it to the facility management device 6. The facility monitoring system 3 may include a trigger generation unit 35 that generates a trigger according to the monitoring result of the operation state in each of the plurality of areas 100 and transmits the trigger to the facility management apparatus 6. The trigger generation unit 35 may generate a trigger when there is an abnormality in the operating state. The trigger may include the identification information of the monitoring target device 710 that caused the trigger to be generated, the occurrence time and content of the abnormality that caused the trigger to be generated, and the like. The power monitoring database 20 of the energy management system 2 and the equipment database 30 of the equipment monitoring system 3 are examples of monitoring databases, each storing information on a plurality of devices 710 to be monitored, and the energy management system 2 or the equipment monitoring system 3. May be managed by

  The maintenance system 4 is an example of a maintenance management device, and performs maintenance management of a plurality of maintenance target devices 720. The maintenance target device 720 is a target of maintenance management, and may be any of the equipment 110, the diagnosis unit 112, and the power state sensor 101 as an example. The maintenance target device 720 and the monitoring target device 710 may be the same device or different devices. The maintenance database 40 of the maintenance system 4 is an example of a maintenance management database. Information on a plurality of maintenance target devices 720 may be stored and managed by the maintenance system 4.

  Here, in a state where the synchronization processing by the facility management apparatus 6 described later is not performed, the power monitoring database 20 and the facility database 30 store information of a plurality of devices to be monitored 710 in a first hierarchical structure, and a plurality of maintenance databases 40 are stored. May be stored in the second hierarchical structure. In the present embodiment, the first hierarchical structure and the second hierarchical structure may be different from each other. For example, one hierarchical structure may include at least one hierarchy that does not correspond to any hierarchy included in the other hierarchical structure. As an example, the first hierarchical structure may include at least a part of a hierarchy such as a customer, a plant owned by the customer, a building (building), a floor, and a production line in addition to the monitored device 710. The second hierarchical structure may include at least a part of the hierarchy such as a building, a floor, and a production line in addition to the maintenance target device 720.

  The facility management system 1A includes a facility management apparatus 6 that manages a plurality of facilities 110 in an integrated manner. The facility management apparatus 6 includes a facility database 60, a monitoring information acquisition unit 61, a maintenance management information acquisition unit 62, a specification unit 63, and a display control unit 64. The facility management apparatus 6 may further include a registration information receiving unit 65, a registration processing unit 66, and a hierarchy synchronization processing unit 67.

  The facility database 60 stores correspondence relationships between a plurality of monitoring target devices 710 and a plurality of maintenance target devices 720. For example, the facility database 60 stores the identification information of the plurality of monitoring target devices 710 and the identification information of the plurality of maintenance target devices 720, respectively, and stores the entries of the monitoring target device 710 and the maintenance target device 720 corresponding to each other. You may associate. As an example, the facility database 60 may store the identification information of the monitoring target device 710 and the maintenance target device 720 corresponding to each other in the entry of the same record. The monitoring target device 710 and the maintenance target device 720 may correspond to each other, or may be included in the other (for example, the monitoring target device 710 in the facility 110 as the maintenance target device 720). Or one of them is provided on the other side (as an example, the equipment 110 as the maintenance target device 720 is provided with the power state sensor 101 as the monitoring target device 710). It may be. The equipment database 60 may store the same content as the integrated database 50 described above.

  The monitoring information acquisition unit 61 acquires monitoring information indicating at least one of the power state and the operating state of the monitoring target device 710 from the energy management system 2 and / or the facility monitoring system 3. The monitoring information acquisition unit 61 may supply the acquired monitoring information to the display control unit 64.

  The maintenance management information acquisition unit 62 acquires maintenance management information of the maintenance target device 720 from the maintenance system 4. The maintenance management information may be information indicating any of the maintenance state, maintenance history, and equipment ledger of the maintenance target device 720. The maintenance management information acquisition unit 62 may supply the acquired maintenance management information to the display control unit 64.

  The specifying unit 63 uses the facility database 60 to specify the correspondence between the first monitoring target device 710 and the first maintenance target device 720 among the plurality of monitoring target devices 710 and the plurality of maintenance target devices 720. For example, the specifying unit 63 may specify the first maintenance target device 720 corresponding to the first monitoring target device 710, or may specify the first monitoring target device 710 corresponding to the first maintenance target device 720. . The specifying unit 63 may supply the specifying result to the display control unit 64.

  The display control unit 64 links the monitoring information of the first monitoring target device 710 and the maintenance management information of the first maintenance target device 720 and causes the display device 510 to output the linked information. For example, the display control unit 64 may output the monitoring information and the maintenance management information of the first monitoring target device 710 and the first maintenance target device 720 that correspond to each other, or switch and output the monitoring information and the maintenance management information according to an instruction from the user. May be. In addition, the display apparatus 510 in this embodiment may be connected to the facility management system 1A via the network 150, and may be a display of a terminal owned by the user.

  The display control unit 64 may be able to set screen layout information that specifies display contents for each of a plurality of windows. For example, the display control unit 64 displays the monitoring information of at least one monitoring target device 710 or the maintenance management information of at least one maintenance target device 720 on at least one of the plurality of windows. It may be settable. In the present embodiment, as an example, the display control unit 64 may provide a multi-view integrated user interface in which display screens by at least the energy management system 2, the equipment monitoring system 3, and the maintenance system 4 are arranged. The display control unit 64 may be configured to display information provided by the external server 160 on at least one window of the integrated user interface. In this case, the screen layout information may include information indicating the address of the Web page to be acquired from the external server 160. The external server 160 may be connected to the facility management apparatus 6 via the network 150, for example.

  The registration information receiving unit 65 receives monitoring-side registration information including identification information of at least one monitoring target device 710 newly registered in the energy management system 2 and / or the facility monitoring system 3 as a monitoring target. And / or from the equipment monitoring system 3. For example, the monitoring-side registration information is obtained from the energy management system 2 and / or the facility monitoring system 3 every time a new monitoring target device 710 is registered in the power monitoring database 20 and / or the facility database 30 or periodically. May be supplied.

  The registration information receiving unit 65 may receive maintenance side registration information including identification information of at least one maintenance target device 720 newly registered in the maintenance system 4 as a maintenance management target from the maintenance system 4. For example, the maintenance-side registration information may be supplied from the maintenance system 4 every time a new maintenance target device 720 is registered in the maintenance database 40 or periodically.

  The registration information receiving unit 65 may supply the received monitoring side registration information and / or maintenance side registration information to the registration processing unit 66.

  The registration processing unit 66 registers the newly registered monitoring target device 710 in the facility database 60 based on the monitoring side registration information. The registration processing unit 66 may register the newly registered maintenance target device 720 in the facility database 60 based on the maintenance side registration information.

  The hierarchy synchronization processing unit 67 synchronizes the first hierarchical structure of the power monitoring database 20 and the facility database 30 with the second hierarchical structure of the maintenance database 40. For example, the hierarchy synchronization processing unit 67 may perform synchronization when the facility management system 1A is activated. The hierarchy synchronization processing unit 67 may perform synchronization when the energy management system 2, the facility monitoring system 3 and / or the maintenance system 4 are connected to the facility management device 6. The hierarchy synchronization processing unit 67 may perform synchronization periodically. Here, to synchronize the first hierarchical structure and the second hierarchical structure may mean to keep the structures identical. For example, the hierarchy synchronization processing unit 67 may detect a hierarchy that is included in one of the first hierarchical structure and the second hierarchical structure but not included in the other, and adds it to the other hierarchical structure. The hierarchy synchronization processing unit 67 may synchronize the hierarchy for each tree detected by matching with identification information such as the area 100 and / or the facility 110. The hierarchy synchronization processing unit 67 may add a hierarchy to the first hierarchical structure and / or the second hierarchical structure in accordance with a user operation. Similarly to the above-described synchronization processing unit 53, the hierarchy synchronization processing unit 67 is configured to provide a correspondence relationship between the plurality of areas 100 and the plurality of facilities 110 between the power monitoring database 20 and the facility database 30, and preferably between the maintenance database 40. Synchronization may be taken.

  According to the facility management system 1A described above, the first monitoring target device 710 and the first maintenance are used by using the facility database 60 in which the correspondence relationship between the plurality of monitoring target devices 710 and the plurality of maintenance target devices 720 is stored. The correspondence relationship of the target device 720 is specified. Therefore, when the information of equipment is managed by separate hierarchical structures in the energy management system 2 and / or the equipment monitoring system 3 and the maintenance system 4, the correspondence relationship between the monitoring target equipment 710 and the maintenance target equipment 720 is changed. Can be identified.

  Further, since the first hierarchical structure of the power monitoring database 20 and the facility database 30 and the second hierarchical structure of the maintenance database 40 are synchronized, the devices managed by the energy management system 2 and / or the facility monitoring system 3 are synchronized. The association between the information and the information of the device managed by the maintenance system 4 can be facilitated.

  Further, monitoring-side registration information including identification information of the monitoring target device 710 newly registered as a monitoring target is received from the energy management system 2 and / or the facility monitoring system 3, and based on this information, the monitoring target device 710 is received. Is registered in the equipment database 60. Also, maintenance-side registration information including identification information of a maintenance target device 720 newly registered as a maintenance management target is received from the maintenance system 4, and the maintenance target device 720 is registered in the facility database 60 based on this information. The Therefore, when the monitoring target device 710 and / or the maintenance target device 720 are added, the contents of the facility database 60 can be automatically updated.

[5. Operation of equipment management system]
FIG. 13 shows the operation of the facility management system 1A according to this embodiment. In this operation, the first synchronization structure of the power monitoring database 20 and the facility database 30 and the second hierarchy structure of the maintenance database 40 may already be synchronized by the hierarchy synchronization processing unit 67.

  First, the display control unit 51 logs in to each of the energy management system 2, the facility monitoring system 3, and the maintenance system 4 in the same manner as in step S11 described above (step S31).

  Next, the registration information receiving unit 65 receives monitoring-side registration information including identification information of at least one monitoring target device 710 newly registered as a monitoring target from the energy management system 2 and / or the facility monitoring system 3 ( Step S33). The monitoring side registration information may be information indicating the registration state of the monitoring target device 710 in the power monitoring database 20 and / or the facility database 30. The monitoring side registration information includes the storage structure of the power monitoring database 20 and the facility database 30, that is, the position information of the monitoring target device 710 in the first hierarchical structure (for example, the customer, plant, building to which the monitoring target device 710 belongs). , Floor and production line identification information).

  In addition to / instead of this, the registration information receiving unit 65 receives maintenance side registration information including identification information of at least one maintenance target device 720 newly registered as a monitoring target from the maintenance system 4. The maintenance side registration information may be information indicating the registration state of the maintenance target device 720 in the maintenance database 40. The maintenance side registration information includes a storage structure of the maintenance database 40, that is, position information of the maintenance target device 720 in the second hierarchical structure (for example, identification information of the plant, building, floor, and production line to which the maintenance target device 720 belongs). ) May be included.

  Next, the registration processing unit 66 registers the monitoring target device 710 newly registered as a monitoring target in the facility database 60 based on the monitoring side registration information (step S35). When at least one maintenance target device 720 corresponding to the newly registered monitoring target device 710 is already registered in the facility database 60, the registration processing unit 66 stores the monitoring target device 710 in the facility database 60. The at least one maintenance target device 720 may be associated. As an example, when the newly registered monitoring target device 710 is the same as the existing maintenance target device 720 in the facility database 60, the monitoring target device 710 is registered in association with the entry of the maintenance target device 720. It's okay. When the newly registered monitoring target device 710 is included or provided in the existing maintenance target device 720 in the facility database 60, the monitoring target device 710 is registered in association with the entry of the maintenance target device 720. It's okay. The registration processing unit 66 causes the user to select at least one maintenance target device 720 from among the maintenance target devices 720 that are not associated with any of the plurality of monitoring target devices 710 among the plurality of maintenance target devices 720. Also good. In this case, the monitoring target device 710 may be registered in association with the selected entry of the maintenance target device 720. When the maintenance target device 720 corresponding to the monitoring target device 710 newly registered as a monitoring target is not registered in the facility database 60, the registration processing unit 66 adds the monitoring target device 710 to a new one in the facility database 60. You may register into a record (a record containing the empty entry for memorize | storing the identification information of the maintenance object apparatus 720 as an example).

  In addition to this, the registration processing unit 66 registers the maintenance target device 720 newly registered as a maintenance management target in the facility database 60 based on the maintenance side registration information. When at least one monitoring target device 710 corresponding to the newly registered maintenance target device 720 is already registered in the facility database 60, the registration processing unit 66 stores the maintenance target device 720 in the facility database 60. The at least one monitoring target device 710 may be associated. As an example, when the newly registered maintenance target device 720 is the same as the existing monitoring target device 710 in the facility database 60, the maintenance target device 720 is registered in association with the entry of the monitoring target device 710. It's okay. When the newly registered maintenance target device 720 is included or provided in the existing monitoring target device 710 in the facility database 60, the maintenance target device 720 is registered in association with the entry of the monitoring target device 710. It's okay. The registration processing unit 66 causes the user to select at least one monitoring target device 710 from among the monitoring target devices 710 that are not associated with any of the plurality of maintenance target devices 720 among the plurality of monitoring target devices 710. Also good. In this case, the maintenance target device 720 may be registered in association with the entry of the selected monitoring target device 710. When the monitoring target device 710 corresponding to the maintenance target device 720 newly registered as a maintenance management target is not registered in the facility database 60, the registration processing unit 66 newly registers the maintenance target device 720 in the facility database 60. (For example, a record including an empty entry for storing the identification information of the monitoring target device 710).

  The registration processing unit 66 may cause the maintenance system 4 to register the monitoring target device 710 newly registered in the power monitoring database 20 and / or the facility database 30 as a monitoring target in the maintenance database 40. For example, the registration processing unit 66 calculates the position information of the monitoring target device 710 in the second hierarchical structure from the position information of the monitoring target device 710 in the first hierarchical structure, and the monitoring target is based on the positional information. The device 710 may be registered in the maintenance database 40. As a result, the new monitoring target device 710 is managed as a maintenance management target. The registration processing unit 66 may cause the energy management system 2 and the facility monitoring system 3 to register the maintenance target device 720 newly registered in the maintenance database 40 as a maintenance management target in the power monitoring database 20 and the facility database 30. For example, the registration processing unit 66 calculates the position information of the maintenance target device 720 in the first hierarchical structure from the position information of the maintenance target device 720 in the second hierarchical structure, and based on this positional information, the registration target The device 720 may be registered in the power monitoring database 20 and the facility database 30. As a result, the new maintenance target device 720 is managed as a monitoring target.

  Note that if the registration information receiving unit 65 does not receive registration information, the above-described steps S33 and S35 need not be performed.

  Next, the display control unit 51 causes the display device 510 to start displaying an integrated user interface (step S37). The display control unit 51 may display the user interface in the same manner as in step S15 described above. The display control unit 64 may set display contents for each of the plurality of windows according to a user operation. In the present embodiment, at least display windows by the energy management system 2, the equipment monitoring system 3, and the maintenance system 4 may be displayed in a superimposed manner or may be displayed side by side. When the display windows are displayed side by side, the monitoring information / maintenance management information does not necessarily have to be displayed in each window. For example, the display may be started in response to a display instruction operation by the user.

  Next, the facility management apparatus 6 performs information display processing for the maintenance target device 720 (step S39). Details of this processing will be described later with reference to FIG. When the display of maintenance management information is not instructed, the facility management apparatus 6 does not have to perform the process of step S39.

  In addition, the facility management apparatus 6 performs information display processing for the monitoring target device 710 (step S41). Details of this processing will be described later with reference to FIG. When the display of the monitoring information is not instructed, the facility management apparatus 6 does not have to perform the process of step S41.

  Next, the display control unit 64 causes the display device 510 to display information provided by the external server 160 (step S43). For example, the display control unit 64 may acquire and display a web page from the external server 160 according to the address information included in the screen layout information. The displayed Web page may be, for example, a page of weather information of a region to which the monitoring target device 710 and / or the maintenance target device 720 on which information is displayed, or a page indicating device specifications and the like. . When the display of information from the external server 160 is not instructed, the facility management apparatus 6 does not have to perform the process of step S43.

  In addition, the process of step S39-S43 may be performed in another order and may be performed in parallel.

  Next, the registration information receiving unit 65 determines whether or not the monitoring side registration information and / or the maintenance side registration information is newly received (step S45). When the registration information receiving unit 65 does not receive the registration information (step S45; No), the facility management apparatus 6 may move to the process of step S39 described above. When the registration information receiving unit 65 receives the registration information (step S45; Yes), the facility management apparatus 6 may move to the process of step S33 described above.

  According to the above operation, when the maintenance target device 720 corresponding to the newly registered monitoring target device 710 is already registered in the facility database 60, the monitoring target device 710 is stored in the facility database 60 in the maintenance database. When the monitoring target device 710 corresponding to the target device 720 and corresponding to the newly registered maintenance target device 720 is already registered in the facility database 60, the maintenance target device 720 is monitored in the facility database 60. Corresponding to the target device 710. Therefore, when the monitoring target device 710 and / or the maintenance target device 720 are added, the correspondence relationship between the monitoring target device 710 and the maintenance target device 720 in the facility database 60 can be automatically updated.

  In addition, since information such as a Web page provided from the external server 160 is displayed, it is possible to facilitate collation between the external information and the monitoring information and / or maintenance management information.

[5-1. Information display processing for maintenance target devices]
FIG. 14 shows an operation of information display processing of the maintenance target device 720. The facility management apparatus 6 performs the processes of steps S391 to S399 in step S39 described above when the display of maintenance management information is instructed. Note that, by repeating the process of step S39 in the operation of FIG. 13 described above, the processes of steps S391 to S399 may be executed in a reference period (as an example, 5 minutes).

  First, the maintenance management information acquisition unit 62 acquires maintenance management information of the first maintenance target device 720 among the plurality of maintenance target devices 720 from the maintenance system 4 (step S391). The first maintenance target device 720 may be arbitrarily designated by the user.

  Next, the display control unit 64 causes the display device 510 to output maintenance management information of the first maintenance target device 720 (step S393). The display control unit 64 may output maintenance management information to a display window by the maintenance system 4 among a plurality of windows in the integrated user interface.

  Next, the specifying unit 63 accesses the facility database 60 and specifies the first monitoring target device 710 associated with the first maintenance target device 720 among the plurality of monitoring target devices 710 (step S395). The specifying unit 63 may perform the process of S395 in response to an instruction to display the monitoring information of the monitoring target device 710 corresponding to the first maintenance target device 720 from the user in the state of step S393. When such an instruction is not given from the user, the facility management apparatus 6 does not have to perform the processing from step S395 to step S399 described later.

  Next, the monitoring information acquisition unit 61 acquires monitoring information of the first monitoring target device 710 specified by the specifying unit 63 from the energy management system 2 and the facility monitoring system 3 (step S397). For example, the energy management system 2 and the facility monitoring system 3 may acquire monitoring information from each monitored device 710 in the form of text (CSV), mail, or digital input (DI), and the first monitoring is performed as required. The monitoring information of the target device 710 may be supplied to the monitoring information acquisition unit 61.

  Then, the display control unit 64 displays the monitoring information of the first monitoring target device 710 on the display device 510 in association with the maintenance management information of the first maintenance target device 720 (step S399), and displays the information on the maintenance target device information display process. Exit. The display control unit 64 may output the monitoring information of the power state and the operating state to the display windows by the energy management system 2 and the facility monitoring system 3 among the plurality of windows in the integrated user interface.

  According to the information display processing of the maintenance target device 720 described above, when the user instructs the display of the monitoring information of the monitoring target device 710 while the maintenance management information of the first maintenance target device 720 is output, the first maintenance target device 720 is displayed. The first monitoring target device 710 corresponding to the target device 720 is specified, and its monitoring information is displayed. Therefore, it is possible to easily collate maintenance management information and monitoring information about the corresponding device.

[5-2. Monitored device information display process]
FIG. 15 shows the information display processing operation of the monitoring target device 710. The facility management apparatus 6 performs the processes of steps S411 to S419 in step S41 described above when the display of monitoring information is instructed. Note that, by repeating the process of step S41 in the operation of FIG. 13 described above, the processes of steps S411 to S419 may be executed at a reference period (as an example, 5 minutes).

  First, the monitoring information acquisition unit 61 acquires monitoring information of the first monitoring target device 710 among the plurality of monitoring target devices 710 from the energy management system 2 and the facility monitoring system 3 (step S411). For example, the energy management system 2 and the facility monitoring system 3 may acquire monitoring information from each monitored device 710 in the form of text (CSV), mail, or digital input (DI), and the first monitoring is performed as required. The monitoring information of the target device 710 may be supplied to the monitoring information acquisition unit 61. The first monitoring target device 710 may be arbitrarily designated by the user.

  Next, the display control unit 64 causes the display device 510 to output monitoring information of the first monitoring target device 710 (step S413). The display control unit 64 may output the monitoring information of the power state and the operating state to the display windows by the energy management system 2 and the facility monitoring system 3 among the plurality of windows in the integrated user interface.

  Next, the specifying unit 63 accesses the facility database 60 and specifies the first maintenance target device 720 associated with the first monitoring target device 710 among the plurality of maintenance target devices 720 (step S415). The specifying unit 63 may perform the process of S415 in response to an instruction from the user to display maintenance information of the maintenance target device 720 corresponding to the first monitoring target device 710 in the state of step S413. When such an instruction is not given from the user, the facility management apparatus 6 does not have to perform the processing from step S415 to step S419 described later.

  Next, the maintenance management information acquisition unit 62 acquires the maintenance information of the first maintenance target device 720 specified by the specifying unit 63 from the maintenance system 4 (step S417).

  Then, the display control unit 64 displays the maintenance information of the first maintenance target device 720 on the display device 510 in association with the monitoring information of the first monitoring target device 710 (step S419), and performs information display processing of the monitoring target device. finish. The display control unit 64 may output maintenance information to a display window by the maintenance system 4 among the plurality of windows in the integrated user interface.

  According to the information display processing of the monitoring target device 710 described above, when the user instructs the display of the maintenance information of the maintenance target device 720 while the monitoring information of the first monitoring target device 710 is output, the first monitoring target device 710 is displayed. The first maintenance target device 720 corresponding to the device 710 is specified, and its maintenance information is displayed. Therefore, it is possible to easily collate maintenance management information and monitoring information about the corresponding device.

[5-3. Interrupt processing]
FIG. 16 shows the operation of interrupt processing. The facility management apparatus 6 performs the interrupt process of steps S51 to S57 by acquiring a trigger from the trigger generation unit 24 according to the monitoring result of the power state during the operation of FIG. In addition to / instead of this, the facility management apparatus 6 performs the interrupt processing of steps S51 to S57 by acquiring a trigger from the trigger generation unit 35 according to the monitoring result of the operating state during the operation of FIG.

  First, the monitoring information acquisition part 61 acquires a trigger from the energy management system 2 and / or the equipment monitoring system 3 (step S51). The trigger may include identification information of the first monitoring target device 710. When a plurality of triggers are generated according to the monitoring results of the plurality of monitoring target devices 710, the monitoring information acquisition unit 61 may acquire each trigger. In this case, each trigger may include identification information of a separate monitoring target device 710 that causes the trigger.

  Next, the specifying unit 63 accesses the facility database 60 and specifies the first maintenance target device 720 associated with the first monitoring target device 710 among the plurality of maintenance target devices 720 (step S53). When a plurality of triggers are acquired in step S51, the specifying unit 63 may specify the maintenance target devices 720 associated with the different monitoring target devices 710 that cause each trigger.

  Next, the maintenance management information acquisition unit 62 acquires maintenance management information of the first maintenance target device 720 specified by the specifying unit 63 from the maintenance system 4 (step S55). When a plurality of maintenance target devices 720 are specified in step S53, the maintenance management information acquisition unit 62 may acquire the maintenance management information of each specified maintenance target device 720.

  Then, the display control unit 64 causes the maintenance management information of the first maintenance target device 720 to be output to the display device 510 in association with the trigger (step S57), and proceeds to the above-described step S39. For example, the display control unit 64 causes the display device 510 to output an alert screen notifying the occurrence of the trigger, and in response to receiving an instruction to display details of the trigger on the alert screen, the first maintenance target device 720. The maintenance management information may be output to the display device 510. The alert screen may display the monitoring target device 710 that generated the trigger, and the occurrence time and content of the abnormality.

  The display control unit 64 may cause the maintenance information to be output to a display window by the maintenance system 4 among a plurality of windows in the integrated user interface in response to a detailed display instruction of the trigger. For example, the display control unit 64 may cause the display device 510 to display a plurality of types of maintenance management information related to one maintenance target device 720 using a plurality of windows. In this case, the display control unit 64 acquires and displays various types of maintenance management information of the first maintenance target device 720 (for example, the maintenance state of the maintenance target device 720, the maintenance history, and the equipment ledger) according to the trigger. The maintenance management information of the first maintenance target device 720 may be displayed on the display device 510 by switching the window.

  When a plurality of triggers are acquired in step S51 and maintenance management information of a plurality of maintenance target devices 720 is acquired in step S55, the display control unit 64 displays an alert screen that notifies the occurrence of the plurality of triggers. You may output to the screen. In response to receiving an instruction to display the details of any trigger on the alert screen, the display control unit 64 performs maintenance management of the maintenance target device 720 corresponding to the monitoring target device 710 that caused the trigger. Information may be displayed. The display control unit 64 may switch and display the maintenance management information of each maintenance target device 720 acquired in step S55 in response to an instruction from the user to switch the trigger to be displayed in detail.

  The display control unit 64 associates the trigger generated according to the monitoring result of the power state of the first monitoring target device 710 with the operating state of the first monitoring target device 710 in the same manner as in the first embodiment. The monitoring information may be output to the display device 510. In addition, the display control unit 64 causes the display device 510 to output monitoring information on the power state of the first monitoring target device 710 in association with the trigger generated according to the monitoring result of the operating state of the first monitoring target device 710. Also good.

  According to the above interrupt processing, when a trigger including identification information of the first monitoring target device 710 is acquired from the energy management system 2 and / or the facility monitoring system 3, the corresponding first maintenance target device 720 is specified. The maintenance management information is output. Therefore, the monitoring target device 710 in which an abnormality has occurred can be inspected, repaired, or replaced at an early stage using the maintenance management information of the monitoring target device 710 in which an abnormality has occurred in the power state / operating state.

  FIG. 17 shows an example of the facility database 60. For example, the facility database 60 includes a power state sensor 101 as a monitoring target device 710 by the energy management system 2, a diagnosis unit 112 (a vibration sensor as an example) as a monitoring target device 710 by the facility monitoring system 3, and maintenance by the maintenance system 4. The facility 110 (the rotating machine a as an example) as the target device 720 may be stored in association with each other.

  FIG. 18 shows a display screen of maintenance management information displayed in association with the trigger. When the detail display button 5105 is operated from the state of FIG. 11, the maintenance target device 720 corresponding to the monitoring target device 710 that has caused the trigger is specified, and the maintenance management information is output. In FIG. 18, the maintenance information of the first machining center as the maintenance target device 720 is shown.

  In the above embodiment, the display control unit 64 has been described as supplying various types of information to the display device 510 for display, but the display device 510 may actively acquire information for display. . For example, the display control unit 64 provides access information including identification information of the energy management system 2 and the facility monitoring system 3 and identification information of the first monitoring target device 710 to the display device 510, and monitors the first monitoring target device 710. A display screen for displaying information may be acquired from the energy management system 2 and the equipment monitoring system 3 on the display device 510. Similarly, the display control unit 64 provides access information including the identification information of the maintenance system 4 and the identification information of the first maintenance target device 720 to the display device 510, and displays the maintenance information of the first maintenance target device 720. The screen may be acquired from the maintenance system 4 on the display device 510. Thereby, the user can confirm the monitoring information and / or the maintenance management information on his / her terminal. The display control unit 64 may allow the display device 510 to acquire the display screen by including authentication information for the energy management system 2, the facility monitoring system 3 and / or the maintenance system 4 in the access information.

  Moreover, although demonstrated that the equipment management systems 1 and 1A were provided with the energy management system 2 and the equipment monitoring system 3, it is good also as providing only any one.

  Further, the energy management system 2, the equipment monitoring system 3, and the maintenance system 4 have been described as having the power monitoring database 20, the equipment database 30, and the maintenance database 40, respectively. It is good also as having a database.

  FIG. 19 shows an example of the configuration of a computer according to this embodiment. A computer 1900 according to the present embodiment functions as an equipment management system 1, 1A, or a part of the equipment management system 1, 1A.

  A computer 1900 according to this embodiment is connected to a CPU peripheral unit having a CPU 2000, a RAM 2020, a graphic controller 2075, and a display device 2080 that are connected to each other by a host controller 2082, and to the host controller 2082 by an input / output controller 2084. An input / output unit having a communication interface 2030, a hard disk drive 2040, and a DVD drive 2060, a ROM 2010 connected to an input / output controller 2084, a flash memory drive 2050, and a legacy input / output unit having an input / output chip 2070. .

  The host controller 2082 connects the RAM 2020 to the CPU 2000 and the graphic controller 2075 that access the RAM 2020 at a high transfer rate. The CPU 2000 operates based on programs stored in the ROM 2010 and the RAM 2020 and controls each unit. The graphic controller 2075 acquires image data generated by the CPU 2000 or the like on a frame buffer provided in the RAM 2020 and displays it on the display device 2080. Instead of this, the graphic controller 2075 may include a frame buffer for storing image data generated by the CPU 2000 or the like.

  The input / output controller 2084 connects the host controller 2082 to the communication interface 2030, the hard disk drive 2040, and the DVD drive 2060, which are relatively high-speed input / output devices. The communication interface 2030 communicates with other devices via a network by wire or wireless. The communication interface functions as hardware that performs communication. The hard disk drive 2040 stores programs and data used by the CPU 2000 in the computer 1900. The DVD drive 2060 reads a program or data from the DVD 2095 and provides it to the hard disk drive 2040 via the RAM 2020.

  The input / output controller 2084 is connected to the ROM 2010, the flash memory drive 2050, and the relatively low-speed input / output device of the input / output chip 2070. The ROM 2010 stores a boot program that the computer 1900 executes at startup and / or a program that depends on the hardware of the computer 1900. The flash memory drive 2050 reads a program or data from the flash memory 2090 and provides it to the hard disk drive 2040 via the RAM 2020. The input / output chip 2070 connects the flash memory drive 2050 to the input / output controller 2084 and inputs / outputs various input / output devices via, for example, a parallel port, a serial port, a keyboard port, a mouse port, and the like. Connect to controller 2084.

  A program provided to the hard disk drive 2040 via the RAM 2020 is stored in a recording medium such as a flash memory 2090, a DVD 2095, or an IC card and provided by a user. The program is read from the recording medium, installed in the hard disk drive 2040 in the computer 1900 via the RAM 2020, and executed by the CPU 2000.

  A program installed in the computer 1900 and causing the computer 1900 to function as at least a part of the facility management system 1, 1A includes an energy management system module, a facility monitoring system module, a maintenance system module, a power monitoring database module, and power A monitoring module, a power control module, a trigger generation module, a facility database module, a facility identification module, a maintenance database module, a maintenance plan generation module, a display control module, a power state comparison module, and a synchronization processing module Equipment monitoring module, diagnostic information acquisition module, equipment management device module, equipment database module, monitoring information acquisition module, maintenance management information acquisition module Comprising a Lumpur, the specific module, a registration information receiving module, a registration processing module, at least one of the hierarchical synchronization processing module. These programs or modules work on the CPU 2000 or the like to change the computer 1900, the energy management system 2, the equipment monitoring system 3, the maintenance system 4, the power monitoring database 20, the power monitoring unit 21, the power monitoring unit 21, and the trigger generation unit. 24, 35, equipment database 30, equipment specification unit 34, maintenance database 40, maintenance plan generation unit 41, display control units 22, 33, 42, 51, 64, power state comparison unit 52, synchronization processing unit 53, equipment monitoring module , Diagnosis information acquisition unit 310, facility management device 6, facility database 60, monitoring information acquisition unit 61, maintenance management information acquisition unit 62, identification unit 63, registration information reception unit 65, registration processing unit 66, and hierarchy synchronization processing unit 67 May function as each.

  The information processing described in these programs is read into the computer 1900 to work on the CPU 2000 or the like, which is a specific means in which the software and the various hardware resources described above cooperate with each other, thereby causing the computer 1900 to store energy. Management system 2, equipment monitoring system 3, maintenance system 4, power monitoring database 20, power monitoring section 21, power monitoring section 21, trigger generation sections 24 and 35, equipment database 30, equipment specifying section 34, maintenance database 40, maintenance Plan generation unit 41, display control units 22, 33, 42, 51, 64, power state comparison unit 52, synchronization processing unit 53, equipment monitoring module, diagnostic information acquisition unit 310, equipment management device 6, equipment database 60, monitoring information Acquisition unit 61, maintenance management information acquisition unit 62, identification unit 63, registration information Receiving unit 65, to function as a registration processing unit 66 and the hierarchical synchronization processing unit 67,. And the specific equipment management system 1,1A according to the intended use is constructed | assembled by implement | achieving the calculation or processing of the information according to the intended use of the computer 1900 in this embodiment by these concrete means.

  As an example, when communication is performed between the computer 1900 and an external device or the like, the CPU 2000 executes a communication program loaded on the RAM 2020 and executes a communication interface based on the processing content described in the communication program. A communication process is instructed to 2030. Under the control of the CPU 2000, the communication interface 2030 reads transmission data stored in a transmission buffer area or the like provided on a storage device such as the RAM 2020, the hard disk drive 2040, the flash memory 2090, or the DVD 2095, and transmits it to the network. Alternatively, the reception data received from the network is written into a reception buffer area or the like provided on the storage device. As described above, the communication interface 2030 may transfer transmission / reception data to / from the storage device by a DMA (direct memory access) method. Instead, the CPU 2000 transfers the storage device or the communication interface 2030 as a transfer source. The transmission / reception data may be transferred by reading the data from the data and writing the data to the communication interface 2030 or the storage device of the transfer destination.

  Further, the CPU 2000 DMAs all or necessary portions of files or databases stored in an external storage device such as the hard disk drive 2040, the DVD drive 2060 (DVD 2095), the flash memory drive 2050 (flash memory 2090), or the like. The data is read into the RAM 2020 by transfer or the like, and various processes are performed on the data on the RAM 2020. Then, CPU 2000 writes the processed data back to the external storage device by DMA transfer or the like. In such processing, since the RAM 2020 can be regarded as temporarily holding the contents of the external storage device, in the present embodiment, the RAM 2020 and the external storage device are collectively referred to as a memory, a storage unit, or a storage device. For example, the facility management systems 1, 1 </ b> A may include a storage device that stores data before, during, and after processing of the present embodiment as appropriate.

  Various types of information such as various programs, data, tables, and databases in the present embodiment are stored on such a storage device and are subjected to information processing. Note that the CPU 2000 can also store a part of the RAM 2020 in the cache memory and perform reading and writing on the cache memory. Even in such a form, the cache memory bears a part of the function of the RAM 2020. Therefore, in the present embodiment, the cache memory is also included in the RAM 2020, the memory, and / or the storage device unless otherwise indicated. To do.

  In addition, the CPU 2000 performs various operations, such as various operations, information processing, condition determination, information search / replacement, etc., described in the present embodiment, specified for the data read from the RAM 2020 by the instruction sequence of the program. Is written back to the RAM 2020. For example, when performing the condition determination, the CPU 2000 determines whether or not the various variables shown in the present embodiment satisfy the conditions such as large, small, above, below, equal, etc., compared to other variables or constants. If the condition is satisfied (or not satisfied), the program branches to a different instruction sequence or calls a subroutine.

  Further, the CPU 2000 can search for information stored in a file or database in the storage device. For example, in the case where a plurality of entries in which the attribute value of the second attribute is associated with the attribute value of the first attribute are stored in the storage device, the CPU 2000 displays the plurality of entries stored in the storage device. The entry that matches the condition in which the attribute value of the first attribute is specified is retrieved, and the attribute value of the second attribute that is stored in the entry is read, thereby associating with the first attribute that satisfies the predetermined condition The attribute value of the specified second attribute can be obtained.

  In addition, when a plurality of elements are listed in the description of the embodiment, elements other than the listed elements may be used. For example, when “X executes Y using A, B, and C”, X may execute Y using D in addition to A, B, and C.

  As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiment. It is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

  The order of execution of each process such as operations, procedures, steps, and stages in the apparatus, system, program, and method shown in the claims, the description, and the drawings is particularly “before” or “prior to”. It should be noted that the output can be realized in any order unless the output of the previous process is used in the subsequent process. Regarding the operation flow in the claims, the description, and the drawings, even if it is described using “first”, “next”, etc. for convenience, it means that it is essential to carry out in this order. It is not a thing.

DESCRIPTION OF SYMBOLS 1 Equipment management system, 2 Energy management system, 3 Equipment monitoring system, 4 Maintenance system, 5 Management part, 6 Equipment management apparatus, 20 Power monitoring database, 21 Power monitoring part, 22 Display control part, 23 Power control part, 24 Trigger generator, 30 Equipment database, 31 Equipment monitor, 33 Display controller, 34 Equipment identification part, 35 Trigger generator, 40 Maintenance database, 41 Maintenance plan generator, 42 Display controller, 50 Integrated database, 51 Display control Unit, 52 power state comparison unit, 53 synchronization processing unit, 60 facility database, 61 monitoring information acquisition unit, 62 maintenance management information acquisition unit, 63 identification unit, 64 display control unit, 65 registration information reception unit, 66 registration processing unit, 67 hierarchical synchronization processing unit, 100 area, 101 power status sensor, 1 0 equipment, 112 diagnostic unit, 113 diagnostic information storage unit, 150 network, 160 external server, 310 diagnostic information acquisition unit, 400 maintenance terminal, 510 display device, 710 monitoring target device, 720 maintenance target device, 5101 operation state button, 5102 Trend button, 5103 Alarm button, 5111 Select button, 5104 Radio button, 5105 Detailed display button, 1900 Computer, 2000 CPU, 2010 ROM, 2020 RAM, 2030 Communication interface, 2040 Hard disk drive, 2050 Flash memory drive, 2060 DVD drive 2070 Input / output chip, 2075 Graphic controller, 2080 Display device, 2082 Host controller, 2084 Input / output controller Controller, 2090 flash memory, 2095 DVD

Claims (20)

A facility database for storing a correspondence relationship between a plurality of monitoring target devices to be monitored at least one of a power state and an operating state, and a plurality of maintenance target devices to be maintenance management;
A monitoring information acquisition unit for acquiring monitoring information indicating at least one of a power state and an operating state of the monitoring target device from a monitoring device for monitoring the plurality of monitoring target devices;
A maintenance management information acquisition unit for acquiring maintenance management information of a maintenance target device from a maintenance management device for performing maintenance management of the plurality of maintenance target devices;
Using the facility database, a specifying unit that specifies a correspondence relationship between the first monitoring target device and the first maintenance target device among the plurality of monitoring target devices and the plurality of maintenance target devices;
A facility management apparatus comprising: a display control unit configured to link the monitoring information of the first monitoring target device and the maintenance management information of the first maintenance target device to a display device. A registration information receiving unit for receiving monitoring side registration information including identification information of at least one monitoring target device newly registered as a monitoring target from the monitoring device;
The facility management apparatus according to claim 1, further comprising: a registration processing unit that registers the at least one monitoring target device in the facility database based on the received monitoring side registration information. The registration processing unit
When at least one maintenance target device corresponding to the at least one monitoring target device is already registered in the facility database, the at least one monitoring target device is associated with the at least one maintenance target device,
The at least one monitoring target device corresponding to the at least one monitoring target device is registered in a new record in the facility database when the at least one maintenance target device is not registered in the facility database. The facility management apparatus according to 2.   The registration processing unit causes the user to select the at least one maintenance target device from maintenance targets that are not associated with any of the plurality of monitoring target devices among the plurality of maintenance target devices. 3. The facility management apparatus according to 3. The registration information receiving unit receives maintenance side registration information including identification information of at least one maintenance target device newly registered as a maintenance management target from the maintenance management device,
The facility management apparatus according to any one of claims 2 to 4, wherein the registration processing unit registers the at least one maintenance target device in the facility database based on the received maintenance-side registration information. The monitoring device manages a monitoring database storing information of the plurality of devices to be monitored;
The maintenance management device manages a maintenance management database storing information of the plurality of maintenance target devices;
The registration processing unit
The monitoring target device newly registered in the monitoring database of the monitoring device as a monitoring target is registered in the maintenance management database by the maintenance management device,
The facility management apparatus according to claim 5, wherein a maintenance target device newly registered in the maintenance management database of the maintenance management apparatus as a maintenance management target is registered in the monitoring database by the monitoring apparatus. The monitoring database stores the plurality of monitoring target devices in a first hierarchical structure;
The maintenance management database stores the plurality of maintenance target devices in a second hierarchical structure,
The facility management apparatus according to claim 6, further comprising a hierarchy synchronization processing unit that synchronizes the first hierarchical structure of the monitoring database and the second hierarchical structure of the maintenance management database. The monitoring information acquisition unit acquires a trigger including identification information of the first monitoring target device among the plurality of monitoring target devices from the monitoring device,
The specifying unit accesses the facility database, specifies a first maintenance target device associated with the first monitoring target device among the plurality of maintenance target devices,
The maintenance management information acquisition unit acquires maintenance management information of the first maintenance target device specified by the specifying unit from the maintenance management device,
The facility management apparatus according to any one of claims 1 to 7, wherein the display control unit causes the display device to output maintenance management information of the first maintenance target device in association with the trigger. The display control unit
An alert screen for notifying the occurrence of the trigger is output to the display device,
The equipment management device according to claim 8, wherein maintenance management information of the first maintenance target device is output to the display device in response to receiving an instruction to display details of the trigger on the alert screen. The display control unit
The display device displays a plurality of types of maintenance management information related to one maintenance target device using a plurality of windows,
The equipment management device according to claim 8 or 9, wherein the maintenance management information of the first maintenance target device is displayed on the display device by switching the plurality of windows according to the trigger. The maintenance management information acquisition unit acquires maintenance management information of the first maintenance target device among the plurality of maintenance target devices,
The display control unit causes the display device to output maintenance management information of the first maintenance target device,
The specifying unit is instructed to display monitoring information of a monitoring target device corresponding to the first maintenance target device by a user in a state where the maintenance management information of the first maintenance target device is output to the display device. In response, the facility database is accessed to identify the first monitoring target device associated with the first maintenance target device among the plurality of monitoring target devices,
The monitoring information acquisition unit acquires monitoring information of the first monitoring target device specified by the specifying unit from the monitoring device,
The facility management according to any one of claims 1 to 10, wherein the display control unit causes the display device to display monitoring information of the first monitoring target device in association with maintenance management information of the first maintenance target device. apparatus. The display control unit provides access information including identification information of the monitoring device and identification information of the first monitoring target device to the display device, and the monitoring information of the first monitoring target device is provided by the display device. The equipment management device according to any one of claims 1 to 11, wherein a display screen to be displayed is acquired from the monitoring device.   The equipment management device according to claim 12, wherein the display control unit allows the display device to acquire the display screen by including authentication information for the monitoring device in the access information.   The equipment management device according to any one of claims 1 to 13, wherein the display control unit is capable of setting screen layout information for designating display contents for each of a plurality of windows displayed on the display device.   The display control unit is configured to monitor at least one monitoring target device of the plurality of monitoring target devices or at least one of the plurality of maintenance target devices with respect to at least one of the plurality of windows. The equipment management apparatus according to claim 14, wherein display of maintenance management information of one maintenance target device can be set.   16. The display control unit according to claim 14 or 15, wherein the display control unit can be configured to display information provided by an external server connected via the Internet on at least one of the plurality of windows. Equipment management equipment.   The facility management apparatus according to claim 16, wherein the screen layout information includes information indicating an address of a Web page to be acquired from the external server. The equipment management device according to any one of claims 1 to 17,
The monitoring device;
An equipment management system comprising the maintenance management device. Computer
A facility database for storing a correspondence relationship between a plurality of monitoring target devices to be monitored at least one of a power state and an operating state, and a plurality of maintenance target devices to be maintenance management;
A monitoring information acquisition unit for acquiring monitoring information indicating at least one of a power state and an operating state of the monitoring target device from a monitoring device for monitoring the plurality of monitoring target devices;
A maintenance management information acquisition unit for acquiring maintenance management information of a maintenance target device from a maintenance management device for performing maintenance management of the plurality of maintenance target devices;
Using the facility database, a specifying unit that specifies a correspondence relationship between the first monitoring target device and the first maintenance target device among the plurality of monitoring target devices and the plurality of maintenance target devices;
A program that functions as a display control unit that causes monitoring information of the first monitoring target device and maintenance management information of the first maintenance target device to be linked and output to a display device. Storing a correspondence relationship between a plurality of monitoring target devices to be monitored at least one of a power state and an operating state and a plurality of maintenance target devices to be maintenance management targets in the facility database;
Obtaining monitoring information indicating at least one of a power state and an operating state of the monitoring target device from a monitoring device for monitoring the plurality of monitoring target devices;
Obtaining maintenance management information of a maintenance target device from a maintenance management device for performing maintenance management of the plurality of maintenance target devices;
Identifying the correspondence relationship between the first monitoring target device and the first maintenance target device among the plurality of monitoring target devices and the plurality of maintenance target devices using the facility database;
A facility management method comprising: linking the monitoring information of the first monitoring target device and the maintenance management information of the first maintenance target device and outputting the linked information to a display device.

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