JP3855618B2 - Distributed building management system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a distributed building management system in which a plurality of distributed control devices are connected to a center device that manages the entire building via a network, and the equipment connected to each of the distributed control devices is managed.
[0002]
[Prior art]
FIG. 9 is a diagram showing a conventional distributed building management system applied to a relatively large-scale building. In the figure, reference numeral 100 denotes a center device that manages the entire building, and is connected to the upper network N1, and a plurality of distributed control devices 200 (# 1 to #N) are connected to the upper network N1.
[0003]
The distributed control device 200 (# 1 to #N) includes an upper communication unit 210 connected to the upper network N1, a control operation unit 220 connected to the upper communication unit 210, and a lower communication unit 230 connected to the control operation unit 220. , And a database 240. 300 (# 1 to #N) is a facility control device 400 (# 1 to #N) connected to the distributed control device 200 (# 1 to #N) via a lower network connected to the lower communication unit 230 Are equipment such as lighting, electric power, and air conditioning in the building connected to the equipment control equipment 300 (# 1 to #N).
[0004]
In this device, when receiving the control data from the center device 100, the distributed control device 200 discriminates the type of the control data. If the control data is aggregated information, the distributed control device 200 determines the equipment 400 to be controlled. Referring to the database 240, the facility device 400 is linked with schedule control for turning the facility device 400 on and off at a certain time, and the occurrence of a state change in another facility device 400 (described later). Event control to be controlled, group control for grouping the equipment 400 and controlling in units of groups, etc. On the other hand, if the control data is information for changing the program of the control calculation unit 220, control calculation based on the information The program of the unit 220 is changed.
[0005]
Further, the distributed control device 200 monitors the occurrence of a change in the state of the equipment device 400, for example, the occurrence of a fire, the intrusion, etc., and transmits the change to the other distributed control device 200 when the change in the state of the equipment device 400 occurs. It is determined whether an event or the like should occur, and if so, information such as the event is transmitted to the other distributed control device 200, and the other distributed control device 200 receiving this performs the event control described above. .
[0006]
[Problems to be solved by the invention]
As described above, in the above-described conventional distributed building management system, the center device controls the equipment as described above only by giving the aggregate information to the distributed control device. There is an effect that the data amount is reduced, the calculation processing amount of the center device is reduced, and the transmission frequency of the upper network is reduced. Further, there is an effect that the program of the distributed control device can be changed from the center device.
[0007]
However, in this system, the distributed control device does not enable control of a plurality of lower networks, and a communication protocol (for example, LON) compatible with multi-vendors that can connect equipment control devices of different manufacturers as lower networks. Therefore, it is not possible to connect equipment control devices from different manufacturers or different manufacturers to a single distributed control device. Communication protocol, equipment control equipment from multiple manufacturers could not be freely selected.
[0008]
In addition, since there is no standardized operation service for creating and registering a program for the control operation unit, a third party (for example, a building designer) other than the manufacturer of the distributed control device can adjust the program according to the application. The program could not be created or registered.
[0009]
The present invention has been made in consideration of the above circumstances, and a building designer or the like can freely select equipment control devices from a plurality of communication protocols and manufacturers according to the application. The purpose is to provide a distributed building management system that can create and register programs.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, in the distributed building management system according to claim 1 of the present invention, facility equipment is connected and equipment control equipment for controlling each equipment is connected through a lower network. A transmission conversion device that communicates via this lower network with a communication protocol that matches the network is connected to each of the distributed control devices via a transmission line. Management information, control functions, etc., and a facility object for controlling / managing the facility equipment, and an object operation unit for operating the facility object based on a request from the distributed control device , the distributed control system, based on an instruction from the center apparatus, equipment to be controlled is at least defined, varying the transmission A control operation unit that creates equipment object operation request data for requesting operation of equipment objects of the device, and transmission conversion of the equipment object operation request data by transmitting the equipment object operation request data to the object operation unit of the transmission conversion device through a transmission line. Via an object communication service that requests the operation of equipment objects of equipment, a connection management database that stores data indicating which transmission control equipment of which distributed control equipment is connected to the equipment, and a higher level network The object communication service is defined in the equipment object operation request data by referring to the connection management database when requesting the operation of the equipment object from the object operation part of the transmission conversion device. Other equipment to be controlled When it is under the control of equipment distributed control system via the host communication unit, for the corresponding distributed control system, characterized in that requests an operation of the equipment object corresponding to that device.
[0011]
In the distributed building management system according to the second aspect, the transmission conversion apparatus communicates via a lower network with a communication protocol compatible with a multi-vendor to which equipment control devices of different manufacturers can be connected.
[0012]
In the distributed building management system according to claim 3, the distributed control device includes a connection management database storing data indicating which equipment is connected under the control of which transmission conversion device of which distributed control device; The object communication service is a control target with reference to the connection management database when requesting the operation of the facility object from the object operation unit of the transmission conversion device. When the facility device is a facility device managed by another distributed control device, it requests the corresponding distributed control device to operate the facility object corresponding to the device via the higher-level communication unit.
[0013]
In a distributed building management system according to a fourth aspect of the present invention, the distributed control device includes a registration / change processing unit that can register or change the program of the control arithmetic unit and the data of the connection management database.
[0014]
In the distributed building management system according to claim 5, when the registration / change processing unit receives a registration / change request for the equipment object of the transmission conversion device, the registration / change processing unit uses the object communication service to An equipment object registration / change request is transmitted, and the contents are registered / changed.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing an example of a main configuration of a distributed building management system according to the present invention.
[0016]
In FIG. 1, reference numeral 1 denotes a center device that manages the entire building, and is connected to an upper network N1, and a plurality of distributed control devices 2 (# 1 to #N) are connected to the upper network N1.
[0017]
The distributed control device 2 (# 1 to #N) includes an upper communication unit 21 connected to the upper network N1, a control operation unit 22 connected to the upper communication unit 21, and an object communication service 23 connected to the control operation unit 22. And the connection management database 24, the higher-level communication unit 21 has a function of communicating via the higher-level network N1, and the control calculation unit 22 receives facility object operation request data (to be described later) based on an instruction from the center device 1. The object communication service 23 has a function of creating and transmitting to the object communication service 23. The object communication service 23 obtains the processing described later for the equipment object operation request data from the control calculation unit 22, and the transmission conversion device 5 (# 1, # 2) The function to transmit to. Further, the connection management database 24 stores data indicating which equipment 4 is connected under the control of which transmission conversion device (# 1, # 2) of which distributed control device (# 1- # N). is doing.
[0018]
The transmission control devices 5 (# 1, # 2) are connected to the distributed control devices 2 (# 1- # N) via the transmission line L2, and the transmission conversion devices 5 (# 1, # 2) The object operation unit 51 is connected to the object communication service 23, the equipment object 52 is connected to the object operation unit 51, and the transmission processing unit 53. The object operation unit 51 is distributed control device 2 (# 1 to #N). The facility object 52 has a function of operating the facility object 52 based on the facility object operation request data from the facility object 52. The facility object 52 has a function program related to management information and control for each facility device 4, and controls the facility device 4. The transmission processing unit 53 has a function of performing communication with the facility control device 3 using a communication protocol adapted to the lower network N3. Note that the transmission processing unit 53 may communicate with the equipment control devices 3 by a multi-vendor compatible communication protocol (for example, LON) that can connect the equipment control devices 3 of different manufacturers to the lower network N3. .
[0019]
The characteristic operation of the present invention having such a configuration will be described with reference to FIG. That is, in the distributed control device 2, when the control calculation unit 22 creates equipment object operation request data based on an instruction from the center device 1 and transmits it to the object communication service 23, the object communication service 23 receives this. Then, the transmission conversion device 5 connected to the equipment 4 to be operated defined by the data is determined with reference to the connection management database 24 (101).
[0020]
If the determined transmission conversion device 5 is connected to the distributed control device 2 itself (102), the equipment object operation request data is transmitted to the transmission conversion device 5 (103). On the other hand, if the determined transmission conversion device 5 is not connected to the distributed control device 2 itself (102), nothing is done as it is, and it waits for the reception of the equipment object operation request data from the control calculation unit 22. To do. Note that the communication protocol in step 103 is a common and standardized one that does not depend on the communication protocol of the lower network N3. If the transmission conversion device 5 receives the equipment object operation request data, the object operation unit 51 Then, the equipment object 52 is operated based on the data content.
[0021]
FIG. 3 is a diagram illustrating an example of a format of equipment object operation request data. Equipment object operation request data D includes equipment object number d1 indicating the number of the target equipment object, operation type d2, property number / method number / event service number d3, parameter size d4 indicating the number of bytes of operation parameter d5, equipment It consists of an operation parameter d5 indicating a parameter to be passed to the object. In this equipment object operation request data D, a fixed part whose data size does not change regardless of the type of equipment object to be operated up to equipment object number d1, operation type d2, property number / method number / event service number d3, and parameter size d4. The operation parameter d5 forms a variable part whose data size changes depending on the type of equipment object to be operated.
[0022]
The operation type d2 means a type for operating the equipment object for each equipment object number d1, and includes property reading and setting described later, method calling described later, and event service starting and termination described later.
[0023]
The properties are various attributes possessed by the device 4 such as the current state (on, off, etc.) of the equipment device 4. By reading out these values, for example, the current state of the device 4 can be known. The method is a service function when performing control (ON, OFF, etc.) on the device 4, and requests the equipment object to execute the function together with the necessary operation parameter d 5. Can be controlled. The event service is a service function that is executed when an event occurs on the device 4 side. For example, there is an event service that notifies the device 4 when a state (on, off, etc.) occurs. By enabling the event service of the target device 4, the information is notified every time the state of the device 4 changes thereafter.
[0024]
Here, the distributed processing apparatus 2 may operate as shown in the flowchart of FIG. That is, when the control calculation unit 22 creates equipment object operation request data based on an instruction from the center apparatus 1 and transmits the equipment object operation request data to the object communication service 23, the object communication service 23 performs the operations in steps 100 to 103 described above. If the transmission conversion device 5 determined in step 102 is not connected to the distribution control device 2 itself, it is determined whether the transmission conversion device 5 is connected to another distribution control device 2 ( 200), if it is connected, the upper communication unit 21 is requested to transmit the equipment object operation request data to the distributed control device 2 (201). The equipment object operation request data is transmitted to the distributed control device 2 via N1.
[0025]
FIG. 5 is a diagram showing another example of the main configuration of the distributed building management system of the present invention. This is characterized in that the distributed control device 2 further includes a registration / change processing unit 25, and the program of the control calculation unit 22 and the data of the connection management database 24 can be registered or changed. This will be described with reference to the flowchart of FIG.
[0026]
That is, in the distributed control device 2, when the upper communication unit 21 receives predetermined registration / change request data from the center device 1, this data is transferred to the registration / change processing unit 25. (300), it is determined whether the request defined by the data is a program registration / change request of the control arithmetic unit 22 (301), and if it is a registration request (302), the control arithmetic unit 22 program registration processing is performed (303). On the other hand, if it is not a registration request in step 302, it is determined whether it is a program change request for the control arithmetic unit 22 (304), and if so, a program change process for the control arithmetic unit 22 is performed (305).
[0027]
In step 301, if the request specified by the received data is not a program registration / change request for the control arithmetic unit 22, it is determined whether it is a registration / change request for the connection management database 24 (306). If it is a request (307), data registration processing of the connection management database 24 is performed (308). On the other hand, if it is not a registration request in step 306, it is determined whether it is a change request for the connection management database 24 (309). If so, data change processing for the connection management database 24 is performed (310).
[0028]
Here, the distributed control device 2 may operate as shown in the flowchart of FIG. Here, when the registration / change processing unit 25 receives predetermined registration / change request data from the higher-level communication unit 21, the registration / change processing unit 25 further performs the operations of Steps 400 and 401 in addition to the operations of Steps 300 to 310 described above. In step 400, it is determined whether the request specified by the received data is a request for registering / changing the contents of the equipment object 52 of the transmission conversion device 5 connected to the distributed control device 2, and in step 401, In response to the determination of the registration / change request in step 400, the facility object registration / change request data D ′ shown in FIG. 8 is transmitted to the object communication service 23. Then, since the object communication service 23 transmits the data D ′ to the transmission conversion device 5, the transmission conversion device 5 that has received this registers or changes the contents of the equipment object 52 based on the data D ′. . The equipment object registration / change request data D ′, as shown in FIG. 8, further defines each of registration, change, and deletion of the equipment object 52 with the operation type d2 and also operates these operations with the operation parameter d5. The point which further defines the parameter according to a classification differs from the above-mentioned equipment object operation request data D.
[0029]
【The invention's effect】
As can be understood from the above description, in the distributed building management system according to claim 1 of the present invention, the transmission conversion device is a communication protocol adapted to the lower network to which the equipment control equipment is connected, and passes through the lower network. Therefore, a building designer or the like can freely select equipment control equipment from a plurality of communication protocols according to the application.
[0030]
In addition, the distributed control device manages / controls the equipment by requesting the object communication service in a standardized procedure, so it learns the method for managing / controlling the equipment and its communication protocol. Therefore, it is only necessary to learn the request procedure for the object communication service, so that a building designer or the like can create / register a system program in accordance with the application.
[0031]
Furthermore, in the distributed control device, when the equipment device to be controlled is the equipment device under the control of another distributed control device, the object communication service is connected to the corresponding distributed control device via the upper communication unit. Since the operation of the equipment object corresponding to the device is requested, management / control of the equipment connected to the different distributed control devices connected to the higher level network can be facilitated.
In the distributed building management system according to claim 2, the transmission conversion device communicates via a lower network with a communication protocol compatible with multi-vendors capable of connecting equipment control devices of different manufacturers. However, equipment control equipment can be freely selected from multiple manufacturers according to the application.
[0033]
In the distributed building management system according to claim 3, since the distributed control device includes a registration / change processing unit that can register or change the program of the control arithmetic unit and the data of the connection management database, the upper communication unit In combination, the program of the control calculation unit and the data of the connection management database can be registered or changed from the center device on the upper network.
[0034]
In the distributed building management system according to claim 4, when the registration / change processing unit receives a registration / change request for the equipment object of the transmission conversion device, the registration / change processing unit uses the object communication service to Since the equipment object registration / change request is transmitted and the contents are registered / changed, the contents of the equipment object of the transmission conversion apparatus are registered or changed from the center apparatus on the upper network when combined with the upper communication unit. be able to.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of a main configuration of a distributed building management system according to the present invention.
FIG. 2 is a flowchart for explaining an example of the operation of the object communication service.
FIG. 3 is a diagram illustrating an example of a format of equipment object operation request data.
FIG. 4 is a flowchart for explaining another example of the operation of the object communication service.
FIG. 5 is a diagram showing another example of the main configuration of the system of the present invention.
FIG. 6 is a flowchart for explaining an example of an operation of a registration / change processing unit.
FIG. 7 is a flowchart for explaining another example of the operation of the registration / change processing unit.
FIG. 8 is a diagram illustrating an example of a format of equipment object registration / change request data.
FIG. 9 is a diagram showing a configuration of a conventional distributed building management system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Center apparatus 2 ... Distributed control apparatus 3 ... Equipment control equipment 4 ... Equipment equipment 5 ... Transmission converter 21 ... High order communication part 22 ... Control operation part 23 ... Object communication service 24 ... connection management database 25 ... registration / change processing unit 51 ... object operation unit 52 ... equipment object N1 ... upper network N3 ... lower network

Claims (4)

In a distributed building management system that connects a plurality of distributed control devices via a host network to a center device that manages the entire building, and manages equipment connected to each of the distributed control devices.
The equipment control equipment that is connected to the equipment equipment and controls each equipment equipment is connected through a lower network, and a transmission conversion device that communicates through the lower network with a communication protocol tailored to the lower network , Each of the above distributed control devices is connected through a transmission line,
This transmission conversion device has a function program related to management information and control of the equipment for each equipment, the equipment object for controlling / managing the equipment, and the distributed control device An object operation unit for operating the equipment object based on the request;
The distributed controller is
Based on an instruction from the center device, at least a facility device to be controlled is defined, and a control calculation unit that creates facility object operation request data for requesting operation of the facility object of the transmission conversion device,
An object communication service that requests operation of the equipment object of the transmission conversion device by transmitting the equipment object operation request data to the object operation unit of the transmission conversion device through the transmission line ;
It comprises a connection management database that stores data indicating which transmission conversion device of which distributed control device is connected to the equipment and a higher-level communication unit that communicates via the higher-level network. ,
The object communication service refers to the connection management database when requesting the operation of the facility object to the object operation unit of the transmission conversion device, and the facility equipment to be controlled, which is defined by the facility object operation request data Is a facility device under the control of another distributed control device, it requests the corresponding distributed control device to operate the facility object corresponding to the device via the upper communication unit. Distributed building management system. In claim 1,
A distributed building management system, wherein the transmission conversion device communicates via the lower network with a multi-vendor compatible communication protocol that allows connection of equipment control devices from different manufacturers. In claim 1 or claim 2,
The distributed control apparatus includes a registration / change processing unit that can register or change the program of the control arithmetic unit and the data of the connection management database. In claim 3,
When the registration / change processing unit receives a registration / change request for a facility object of the transmission conversion device, the registration / change processing unit transmits the facility object registration / change request to the corresponding transmission conversion device by the object communication service. Then, a distributed building management system characterized in that the contents are registered / changed.

Images