JP7107320B2 - Equipment management system, equipment management method - Google Patents

Description

The present invention relates to a facility management system and a facility management method.

2. Description of the Related Art Conventionally, in order to manage production in a factory, it has been practiced to monitor the operation status of each of a plurality of facilities in the factory. For example, in Patent Document 1, a device interface means for collecting operation status information from production equipment, a standardization conversion means for converting the collected operation status information into standardized operation status information and outputting the standardized operation status information, and a network for transmitting the standardized operation status information. and communication interface means for transmitting to an equipment management server via the operating status monitoring system.

JP-A-2003-58219

By the way, there are cases in which a plurality of facilities manufactured by different manufacturers, such as manufacturing companies, coexist in a factory. Even in such a case, if the plurality of facilities all conform to a single protocol (for example, a standard protocol), the factory manager can can be monitored.

However, if some of the multiple pieces of equipment in the factory and other pieces of equipment follow different protocols, the factory manager must monitor the multiple pieces of equipment while switching between multiple pieces of operation monitoring software. becomes complicated. In addition, if multiple pieces of equipment used in a common production process (for example, a specific cutting process) are different (for example, if the equipment is manufactured by different manufacturers), the operating status of each piece of equipment will be displayed in a different manner. This may be a cause of confusion for a manager who manages multiple facilities.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to prevent complication due to differences in equipment when monitoring the operation status of a plurality of equipment used in a common production process.

An exemplary first invention of the present application includes a first facility, a second facility, a facility management device that manages the operation status of the first facility and the second facility, and a management system for the first facility and the facility management device. and a second relay device for relaying communication between the second facility and the facility management device, wherein the first relay device receives from the first facility, Obtaining first operation information based on a first standard for the operation status of the first equipment, and obtaining the first operation information from the second equipment for the operation status of the second equipment different from the first standard Acquiring second operation information based on a second criterion, the facility management device shares the first operation information and the second operation information acquired by the first relay device and the second relay device, respectively. It is a facility management system that obtains common operation information based on standards.

Advantageous Effects of Invention According to the present invention, when monitoring the operation status of a plurality of facilities used in a common production process, it is possible to prevent the complexity caused by differences in facilities.

FIG. 1 is a diagram showing the configuration of a facility management system according to the first embodiment. FIG. 2 is a functional block diagram of a relay server and integrated server. FIG. 3 is a functional block diagram of the gateway device and integrated server. FIG. 4 is a diagram showing an example of a data conversion table. FIG. 5 is an example of a sequence chart of the equipment management system according to the first embodiment. FIG. 6 is an example of a sequence chart of the equipment management system according to the first embodiment. FIG. 7a is a diagram showing a display example on the integrated server. FIG. 7b is a diagram showing a display example on the integrated server. FIG. 8 is an example of a sequence chart of the equipment management system according to the second embodiment.

An embodiment of the facility management system of the present invention will be described below.

(1) First Embodiment (1-1) Configuration of Facility Management System 1 of this Embodiment Hereinafter, the configuration of the facility management system 1 of this embodiment will be described with reference to FIG. FIG. 1 is a diagram showing the configuration of a facility management system 1 of this embodiment. The facility management system 1 is provided in a place such as a factory where a plurality of facilities operate to manage or monitor the operating states of the plurality of facilities. In the example shown in FIG. 1, the operating states of a plurality of facilities 10-1 to 10-6 are managed, and the plurality of facilities 10-1 to 10-6 are arranged in the same process (for example, cutting process). there is In the following description, items common to a plurality of 10-1 to 10-6 are referred to as "equipment 10".

In order to extract data (hereinafter referred to as "operation data") regarding the operation status of each facility from each of the plurality of facilities 10-1 to 10-6, software corresponding to the protocol of each facility is required. However, in general, multiple pieces of equipment installed in the same process include equipment of different manufacturers, and even equipment of the same manufacturer with different specifications. In the example of the facility management system 1 shown in FIG. 1, the facilities 10-1 and 10-2 comply with the manufacturer's original protocol P1. The facility 10-3 complies with the manufacturer's proprietary protocol P3. The equipment 10-4 complies with the manufacturer's proprietary protocol P4. The equipment 10-5 conforms to the standardized protocol PX. The facility 10-6 complies with the manufacturer's proprietary protocol P6. Operation data is an example of operation information.

Relay server 30-1 (an example of a first relay device) is a relay device that relays communication between each of facilities 10-1 and 10-2 and integrated server 40. Facilities 10-1 and 10-2 are examples of first facilities. The relay server 30-2 (an example of a second relay device) is a relay device that relays communication between each of the facilities 10-3, 10-4, and 10-5 and the integrated server 40. FIG. Facilities 10-3, 10-4, and 10-5 are examples of second facilities. Gateway device 20-1 is provided between facility 10-3 and relay server 30-2, and converts operation data according to protocol P3 transmitted from facility 10-3 to conform to standardized protocol PX. It is a device that The gateway device 20-2 is provided between the equipment 10-4 and the relay server 30-2, and converts the operation data according to the protocol P4 transmitted from the equipment 10-4 to conform to the standardized protocol PX. It is a device that

Relay server 30-1 and relay server 30-2 receive operation data according to different protocols. That is, the relay server 30-1 receives operation data (first operation information example). The relay server 30-2 receives from the facilities 10-3, 10-4, and 10-5 a protocol PX (an example of the second standard ) based on (example of second operation information). The relay server 30-1 and the relay server 30-2 convert the operation data acquired from each facility 10 into common operation data as common operation information based on a common standard, and transmit the common operation data to the integration server 40. FIG.

The gateway device 20-3 is provided between the equipment 10-6 and the integration server 40, and receives operation data according to the protocol P6 from the equipment 10-6. That is, the gateway device 20-3 receives operation data (second operation information example). Gateway device 20-3, like relay servers 30-1 and 30-2, converts the data into common operation data based on the above-described common criteria, and transmits the same to integration server 40. FIG.

Integrated server 40 (an example of a facility management device) receives common operation data from relay servers 30-1 and 30-2 and gateway device 20-3. That is, integrated server 40 obtains common operating data (common operating information) based on a common reference for operating information obtained by relay servers 30-1 and 30-2 and gateway device 20-3. Since common operation data corresponding to each of a plurality of facilities 10-1 to 10-6 can be obtained, a manager who manages each facility monitors all facilities based on data based on a common standard using the integrated server 40. can do. Therefore, it is possible to prevent the administrator from being troubled by the difference in equipment.

(1-2) Functional Block Diagram of Facility Management System 1 of this Embodiment Next, functional block diagrams of the facility management system 1 of this embodiment will be described with reference to FIGS. FIG. 2 is a functional block diagram of the relay server 30 and integrated server 40. As shown in FIG. FIG. 3 is a functional block diagram of the gateway device 20-3 and integrated server 40. As shown in FIG. FIG. 4 is a diagram showing an example of a data conversion table.

As shown in FIG. 2 , relay server 30 includes control unit 31 , storage unit 32 , and communication interfaces 33 and 34 . The control unit 31 is mainly composed of a microprocessor and controls the relay server 30 as a whole. For example, a microprocessor included in the control unit 31 loads and executes a data conversion program recorded in the storage unit 32 . As will be described later, by executing the data conversion program, the control unit 31 receives the Transform operational data into common operational data based on common standards. That is, control units 31 (examples of conversion units) of relay server 30-1 and relay server 30-2 respectively obtain operation data (first operation information) according to protocol P1 and operation data (first operation information) according to protocol PX ( Second operating information) is converted into common operating data (common operating information) based on a common standard.

The storage unit 32 is a non-volatile memory, and may be an SSD (Solid State Drive) such as a flash memory. The storage unit 32 includes a database (DB) for accumulating operation data received from the equipment 10 in addition to the data conversion program. The communication interface 33 receives operation data from the facility 10 or the gateway device 20 by communicating with the facility 10 or the gateway device 20 according to a predetermined communication protocol. The communication interface 34 transmits common operation data to the integrated server 40 by communicating with the integrated server 40 according to a predetermined communication protocol.

As shown in FIG. 2 , integrated server 40 includes control unit 41 , storage unit 42 , communication interface 43 , display unit 44 , audio output unit 45 and operation input unit 46 . The control unit 41 is mainly composed of a microprocessor and controls the integrated server 40 as a whole. For example, the microprocessor included in the control unit 41 loads and executes a management program recorded in the storage unit 42 . Communication interface 43 communicates with relay server 30 and gateway device 20-3 according to a predetermined communication protocol. For example, communication interface 43 receives common operating data from relay server 30 and gateway device 20-3. The storage unit 42 is a non-volatile memory, and may be an SSD such as a flash memory, for example. Storage unit 42 stores common operation data received from relay server 30 and gateway device 20-3 in addition to the management program. The display unit 44 includes, for example, a liquid crystal display panel. The display unit 44 displays the execution result of the management program. The execution result includes information about the operation status of each facility based on the common operation data. Audio output unit 45 includes an audio processing circuit and a speaker. The audio output unit 45 outputs predetermined audio from the speaker based on the execution result of the management program. For example, the audio output unit 45 may output a predetermined warning sound when the operating status of any facility 10 indicates an error.

As shown in FIG. 3, the gateway device 20-3 includes a control section 21, a storage section 22, and communication interfaces 23 and 24. FIG. Note that the functional block diagram of the integrated server 40 shown in FIG. 3 is the same as the functional block diagram of the integrated server 40 shown in FIG. The control unit 21 is mainly composed of a microprocessor and controls the entire gateway device 20-3. For example, a microprocessor included in the control unit 21 loads and executes a data conversion program recorded in the storage unit 22 . As will be described later, by executing a data conversion program, the control unit 21 converts the operation data received from the equipment 10-6 into common operation data.

The storage unit 22 is a non-volatile memory, and may be an SSD such as a flash memory, for example. The storage unit 22 includes a database (DB) for accumulating operation data received from the equipment 10-6 in addition to the data conversion program. The communication interface 23 receives operation data from the equipment 10-6 by communicating with the equipment 10-6 according to a predetermined communication protocol. The communication interface 24 transmits common operation data to the integrated server 40 by communicating with the integrated server 40 according to a predetermined communication protocol.

The data conversion table shown in FIG. 4 is recorded in the storage unit 42 of the integrated server 40, and is data representing the correspondence relationship between the operation data of the equipment 10 and the common operation data for each piece of identification information. The identification information is information known to relay server 30 and gateway device 20-3 and notified to integrated server 40 from relay server 30 and gateway device 20-3.

The example shown in FIG. 4 shows a case where the common operation data consists of three types of data: α (operation), β (stop), and γ (error). In the data conversion table, the identification information is data that is uniquely determined with respect to the operating data standard (that is, protocol). That is, different identification information corresponds to operation data based on different criteria. Operation data corresponding to different identification information differ in data type and content. For example, in the operation data whose identification information corresponds to "01", "D1" means automatic operation and "D2" means manual operation as the operation data meaning "driving". In the operation data whose identification information corresponds to "02", "d1" means high-speed operation, "d2" means low-speed operation, and "d3" means test run as operation data meaning "operation". do.

In this embodiment, each of the relay server 30 and the gateway device 20-3 converts the operation data from each facility 10 into common operation data based on a common standard based on the data conversion table. In the example of operation data meaning "driving", both operation data D1 and D2 are converted into common operation data α, and operation data d1, d2 and d3 are all converted into common operation data α. In the following description, in the data conversion table, data indicating the relationship between the operation data for each identification information and the common operation information will be referred to as "conversion data". The conversion data is data indicating the correspondence relationship between the reference of the operation data (protocols P1, PX, etc. in FIG. 1) and the common reference (the reference indicated by the common operation data).

In this embodiment, each of the relay server 30 and the gateway device 20-3 self-converts to the integration server 40 in order to know how to convert the operation data acquired from each facility 10 into common operation data. to notify the identification information of The identification information corresponds to protocols P1, PX, and P6 shown in FIG. 1, respectively, and is set as known values in each of relay server 30 and gateway device 20-3. Each of relay server 30 and gateway device 20-3 notifies integration server 40 of its own identification information before transmitting operation data to integration server 40, and transmits conversion data corresponding to the identification information. get. Each of relay server 30 and gateway device 20 - 3 converts the operation data into common operation data based on the conversion data acquired from integrated server 40 and transmits the common operation data to integrated server 40 .

(1-3) Operations of Facility Management System 1 Next, operations of the facility management system 1 will be described with reference to FIGS. 5 and 6 are examples of sequence charts of the facility management system 1 according to the first embodiment, respectively. 5 shows the sequence between relay server 30 and integrated server 40, and FIG. 6 shows the sequence between gateway device 20-3 and integrated server 40. FIG. 7a and 7b are diagrams showing display examples on the integrated server 40, respectively.

In this operation example, the storage unit 42 of the integration server 40 stores first conversion data (example of first correspondence information) that is conversion data indicating the correspondence relationship between the protocol P1 (first reference) and the common reference, and protocol P1 (first reference). A data conversion table including second conversion data (example of second correspondence information) that is conversion data indicating the correspondence relationship between PX (second reference) and a common reference is stored. In FIG. 5, relay server 30 first notifies integrated server 40 of its own identification information (step S10). That is, relay server 30-1 transmits identification information specifying protocol P1 (first reference) (hereinafter referred to as “first identification information”) to integrated server 40. FIG. Relay server 30 - 2 transmits identification information specifying protocol PX (second reference) (hereinafter referred to as “second identification information”) to integrated server 40 .

The integrated server 40 searches the data conversion table using the identification information received in step S10 as a key, and reads the conversion data of the identification information (step S12). The integration server 40 further transmits the converted data to the relay server 30, which is the transmission source of the identification information in step S10, and instructs to convert the operation data into common operation data and transmit the same (step S14). That is, if the identification information received from either relay server 30-1 or relay server 30-2 is the first identification information, integrated server 40 sends , to convert the operation data into common operation data based on the first conversion data and to transmit the common operation data. If the identification information received in step S10 is the second identification information, integrated server 40 converts the operation data into common operation data based on the second conversion data for relay server 30 that is the transmission source. to send

The subsequent steps S20 to S34 are repeated. In FIG. 5, as shown in FIG. 1, facility 10-3 transmits operation data according to protocol P3 to gateway device 20-1, and facility 10-4 transmits operation data to gateway device 20-2 according to protocol P4. It shows the case of transmitting the operation data according to (step S20). Gateway devices 20-1 and 20-2 convert the received operation data so as to comply with the standardized protocol PX, and then transfer the converted data to relay server 30 (step S22). Although not shown in FIG. 5, the facilities 10-1 and 10-2 each transmit operation data according to the protocol P1 to the relay server 30-1, and the facility 10-5 operates according to the protocol PX. The data is transmitted to the relay server 30-2.

Relay server 30 records the received operation data in a database (DB) (step S24). That is, in step S24, relay server 30-1 records operation data according to protocol P1, and relay server 30-2 records operation data according to protocol PX.

In step S14, relay server 30-1 has received converted data corresponding to protocol P1, and relay server 30-2 has received converted data corresponding to protocol PX. Therefore, each relay server 30 reads out the operation data recorded in the database when the predetermined transmission timing is reached (step S26: YES), and updates the operation data based on the received converted data. It is converted into common operation data (step S28). Furthermore, each relay server 30 transmits the common operation data obtained in step S28 to the integration server 40 (step S30). Common operating data is operating data based on a common standard, as illustrated in FIG.

The integration server 40 records the received common operation data in the database (step S32), and updates the screen of the display unit 44 based on the common operation data (step S34).

FIG. 6 shows the sequence between gateway device 20-3 and integrated server 40, which is basically the same as the sequence between relay server 30 and integrated server 40 shown in FIG. The same reference numerals are assigned to the same processes. At step S10 in FIG. 6, the gateway device 20-3 notifies the integrated server 40 of the identification information corresponding to the protocol P6 (step S10). As a result, gateway device 20-3 receives the conversion data corresponding to protocol P6 (steps S12 and S14). The facility 10-6 transmits operation data according to the protocol P6 to the gateway device 20-3, and the gateway device 20-3 records the operation data in the database (steps S20, S24). The gateway device 20-3 converts the operation data into common operation data based on the conversion data received in step S14 at a predetermined transmission timing, and transmits the common operation data to the integrated server 40 (steps S26 to S30).

As shown in FIGS. 5 and 6, integrated server 40 acquires common operational data according to a common standard from relay server 30 and gateway device 20-3 at a predetermined timing. can display the operating status based on common criteria. Examples of such displays are shown in FIGS. 7a and 7b. The display example shown in FIG. 7a shows the current operating status of the facilities 10-1 to 10-6. That is, based on the data conversion table of FIG. 4, the operating status corresponding to the common operating data α, β, or γ received in step S30 is displayed. As shown in FIG. 7b, the history of the operation status of the equipment 10-1 to 10-6 within a predetermined time in the past or from a predetermined time may be displayed.

As described above, according to the facility management system 1 of the present embodiment, the integrated server 40 provides common operational data obtained by the relay server 30 and the gateway device 20-3 from the facility 10, based on a common standard. configured to obtain operational data; In other words, information about the operation status of a plurality of facilities used in a common production process is collected in the integrated server 40 as common operation data regardless of the manufacturer or specifications of the facilities. Therefore, when a manager monitors the operation status of a plurality of facilities used in a common production process, it is possible to avoid complication due to differences in facilities.

(2) Second Embodiment Next, a second embodiment of the facility management system of the present invention will be described with reference to FIG. FIG. 8 is an example of a sequence chart of the equipment management system according to the second embodiment. In the first embodiment, a case has been described where relay server 30 and gateway device 20-3 receive conversion data from integration server 40 and convert operation data based on the conversion data. In contrast, the present embodiment differs from the first embodiment in that operation data is converted in the integrated server 40 . That is, in the present embodiment, the control unit 41 (an example of a conversion unit) of the integrated server 40 as a facility management device receives the operation data according to the protocol P1 ( First operation information) and operation data conforming to the protocol PX (second operation information) are converted into common operation data (common operation information) based on a common standard.

FIG. 8 is a sequence chart corresponding to FIG. 5 of the first embodiment. In FIG. 8, the same processes as those shown in FIG. 5 are denoted by the same reference numerals, and differences in the sequence chart of FIG. 5 will be mainly described below. First, relay server 30 notifies integrated server 40 of its own identification information (step S10). The integrated server 40 searches the data conversion table using the identification information received in step S10 as a key, and reads the conversion data of the identification information (step S12). In this embodiment, the converted data read in step S12 is not transmitted to the relay server 30. FIG. When it is time to transmit the operation data (step S26: YES), relay server 30 transmits the operation data recorded in the database to integrated server 40 (step S29). The operation data transmitted in step S29 is data without protocol conversion (that is, the operation data received in step S22).

The integration server 40 converts the operation data received in step S29 into common operation data based on the conversion data read out in step S12 (step S31). That is, if the identification information received in step S10 from either relay server 30-1 or relay server 30-2 is the first identification information, control unit 41 of integrated server 40 performs the first conversion. The operation data received from the relay server is converted into common operation data based on the data. As described above, the first identification information is identification information that specifies the protocol P1 (first standard), and the first conversion data is conversion data that indicates the correspondence relationship between the protocol P1 (first standard) and the common standard. be. If the identification information received in step S10 is the second identification information, the control unit 41 of the integration server 40 converts the operation data received from the relay server 30 into common operation data based on the second conversion data. As described above, the second identification information is identification information that specifies the protocol PX (second standard), and the second conversion data is conversion data that indicates the correspondence relationship between the protocol PX (second standard) and the common standard. be. The conversion process of step S31 corresponds to the process of step S28 executed by the relay server 30 in FIG.

Although not shown, processing between the gateway device 20-3 and the integrated server 40 is performed in the same sequence as in FIG.

Also in this embodiment, as in the first embodiment, the integrated server 40 is configured to obtain common operation data. It is possible to prevent the janitor from causing complication due to the difference in facilities.

Although the embodiments of the facility management system of the present invention have been described above, the present invention is not limited to the above embodiments. Also, the above embodiments can be modified and modified in various ways without departing from the gist of the present invention. In each of the above-described embodiments, the operation data transmitted from each facility 10 includes information about the operation status of each facility 10, but may include other information. For example, in addition to the number of productions and the number of shots, information specific to the facility may be included. In the first embodiment, the timing at which relay server 30 or gateway device 20-3 transmits common operation data may be different. If the transmission timing of the common operation data is different, for example, in FIG. 7a, the display update timing is different for each facility 10, but this does not cause complexity.

In the facility management system of the embodiment described above, the case of managing a plurality of facilities arranged for the same process has been described, but the present invention is not limited to this. Multiple facilities deployed for each of multiple processes may be managed. For example, in an assembly factory, the cutting process, machining process, and assembly process are different processes, and the equipment used in each process is different, but for example, it consists of three types of data, such as "operation", "stop", and "error". It is possible to manage all processes with common operating data.

1 Facility management system 10 (10-1, 10-2, ... 10-6) Facility 20 (20-1, 20-2, 20-3) Gateway device 30 (30-1, 30-2) ... Relay server 31 Control unit 32 Storage unit 33, 34 Communication interface 40 Integrated server 41 Control unit 42 Storage unit 43 Communication interface 44 Display unit 45 Audio output unit 46 Operation input unit

Claims (4)

a first facility, a second facility,
a facility management device that manages the operation status of the first facility and the second facility;
a first relay device that relays communication between the first facility and the facility management device;
a second relay device that relays communication between the second facility and the facility management device;
with
The first relay device acquires, from the first facility, first operation information about the operation status of the first facility based on a first criterion,
The second relay device acquires, from the second facility, second operation information regarding the operation status of the second facility based on a second criterion different from the first criterion,
The equipment management device obtains common operation information based on a common reference for the first operation information and the second operation information respectively obtained by the first relay device and the second relay device,
The first relay device and the second relay device each include a conversion unit that converts the first operation information and the second operation information acquired respectively into the common operation information based on the common reference,
The facility management device stores first correspondence information indicating a correspondence relationship between the first standard and the common standard, and second correspondence information indicating a correspondence relationship between the second standard and the common standard. a storage unit for
The first relay device specifies the first criterion and transmits first identification information uniquely determined with respect to the first criterion to the facility management device,
The second relay device specifies the second criterion and transmits second identification information uniquely determined with respect to the second criterion to the facility management device,
The equipment management device
If the identification information received from either the first relay device or the second relay device is the first identification information, the relay device of the transmission source based on the first correspondence information command to convert the operating information into the common operating information and transmit it,
When the received identification information is the second identification information, instructing the transmission source relay device to convert the operation information into the common operation information based on the second correspondence information and transmit the same. do,
Facility management system. a first facility, a second facility,
a facility management device that manages the operation status of the first facility and the second facility;
a first relay device that relays communication between the first facility and the facility management device;
a second relay device that relays communication between the second facility and the facility management device;
with
The first relay device acquires, from the first facility, first operation information about the operation status of the first facility based on a first criterion,
The second relay device acquires, from the second facility, second operation information regarding the operation status of the second facility based on a second criterion different from the first criterion,
The equipment management device obtains common operation information based on a common reference for the first operation information and the second operation information respectively obtained by the first relay device and the second relay device,
The facility management device includes a conversion unit that converts the first operation information and the second operation information respectively acquired by the first relay device and the second relay device into the common operation information based on the common reference. , and
The facility management device stores first correspondence information indicating a correspondence relationship between the first criterion and the common criterion, and second correspondence information indicating a correspondence relationship between the second criterion and the common criterion. a storage unit for
The first relay device specifies the first criterion and transmits first identification information uniquely determined with respect to the first criterion to the facility management device,
The second relay device specifies the second criterion and transmits second identification information uniquely determined with respect to the second criterion to the facility management device,
The conversion unit of the equipment management device,
If the identification information received from either the first relay device or the second relay device is the first identification information, the operation information received from the relay device based on the first correspondence information. into the common operation information,
when the received identification information is the second identification information, converting the operation information received from the relay device into the common operation information based on the second correspondence information;
Facility management system. A facility management method for managing the operation status of a first facility and a second facility,
A first relay device that relays communication between the first facility and the facility management device receives operation information about the operation status of the first facility from the first facility,
A second relay device that relays communication between the second equipment and the equipment management device receives operation information about the operation status of the second equipment from the second equipment,
The first relay device specifies a first criterion regarding the operation status of the facility, and first identification information uniquely determined with respect to the first criterion , or second identification information different from the first criterion regarding the operation status of the facility. Identifying a reference and transmitting any of the second identification information uniquely determined with respect to the second reference to the facility management device;
the second relay device transmits either the first identification information or the second identification information to the facility management device;
The equipment management device
referring to a storage unit that stores first correspondence information indicating the correspondence relationship between the first criterion and the common criterion, and second correspondence information indicating the correspondence relationship between the second criterion and the common criterion;
If the identification information received from either the first relay device or the second relay device is the first identification information, the transmission source relay device is notified based on the first correspondence information. Instruct to convert and send operation information,
if the received identification information is the second identification information, instructing the transmission source relay device to convert and transmit the operation information based on the second correspondence information;
Equipment management method. A facility management method for managing the operation status of a first facility and a second facility,
A first relay device that relays communication between the first facility and the facility management device receives operation information about the operation status of the first facility from the first facility, and transmits the operation information to the facility management device. send and
A second relay device that relays communication between the second facility and the facility management device receives operation information about the operation status of the second facility from the second facility, and transmits the operation information to the facility management device. send to
The first relay device specifies a first criterion regarding the operation status of the facility, and first identification information uniquely determined with respect to the first criterion , or second identification information different from the first criterion regarding the operation status of the facility. Identifying a reference and transmitting any of the second identification information uniquely determined with respect to the second reference to the facility management device;
the second relay device transmits either the first identification information or the second identification information to the facility management device;
The equipment management device
referring to a storage unit that stores first correspondence information indicating the correspondence relationship between the first criterion and the common criterion, and second correspondence information indicating the correspondence relationship between the second criterion and the common criterion;
If the identification information received from the transmission source of either the first relay device or the second relay device is the first identification information, the operation information received from the transmission source is based on the first correspondence information. and if the identification information received from the transmission source is the second identification information, converting the operation information received from the transmission source based on the second correspondence information;
Equipment management method.

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