KR20080042484A - Building management system and the controlling method - Google Patents

Abstract

A BMS(Building Management System) and a controlling method thereof are provided to mutually convert data, which is inputted to a gateway from a central controller and an air-conditioner controller centrally controlling a plurality of electric device and an air-conditioner installed in a building, and control the air-conditioners connected to the gateway by connecting the air-conditioner with one gateway. An air-conditioner(230) comprises more than one indoor and outdoor units(231,232). A central controller(220) controls the air-conditioner and a plurality of electric devices(200) centrally by connecting to a Lon(Local operation network) Work network. A remote controller(210) controls the air-conditioner remotely by connecting to the Internet. A gateway(300) mutually converts protocols used on the network of the central controller, the remote controller, and the air-conditioner. The gateway includes a communicator communicating data by connecting to the central controller, the remote controller, and the air-conditioner, a converter converting the protocol received through the communicator, and a controller analyzing the received data and enabling the converter to convert the protocol of the received data based on an analysis result.

Description

Building management system and the controlling method

1 is a view showing the configuration of a building management system according to the prior art,

2 is an external view illustrating a configuration of a building management system according to an embodiment of the present invention;

3 is a block diagram showing the configuration of a building management system according to an embodiment of the present invention;

4 is a flowchart illustrating a control method of a building management system according to a first embodiment of the present invention; and

5 is a flowchart illustrating a control method of a building management system according to a second embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

210: remote controller 220: central controller

230: air conditioner 300: gateway

310: communication unit 320: conversion unit

330 control unit 340 memory

The present invention relates to a building management system and a control method thereof, and more particularly, to a building management system and a control method for converting a protocol used between different networks to enable central and remote control of an air conditioner.

Recently, as the facilities of a building are modernized, an automatic control system for automatically controlling various sub-systems such as power, lighting, and disaster prevention installed in a building has been spreading, and a building management that can integrate and manage such subsystems as a whole. The development of the system is active.

1 is a view showing the configuration of a building management system according to the prior art.

As shown in FIG. 1, the building management system according to the related art includes a sub-system 12 such as lighting and power management installed in a building, an air conditioner 13 including at least one indoor unit and an outdoor unit, and each sub-unit. It is configured to include a BMS (Building Management System) controller 10 for controlling the system 12 and the air conditioner (13).

Building management systems typically use LonWorks network technology based on the LonTalk protocol to centrally control each subsystem 12 and air conditioner 13 via the BMS controller 10. do.

LON of Lonworks network technology is short for Local Operating Network. It is a device that is responsible for communication, monitor and control functions with devices such as the lowest sensor and actuator, and transmits and receives data through one and the same protocol. It is a network technology that supports the master / slave method, supports peer-to-peer connection between field instruments, and realizes distributed control that shares information required for control.

Accordingly, each subsystem 12 reads at least one Lon device for reading data received from the BMS controller 10 and converting the protocol of the data to transfer the data to the BMS controller 10 accordingly. 11). In particular, in the case of the air conditioner 13 composed of one or more indoor units and outdoor units, the ron apparatus 11 is connected to each of the indoor unit and the outdoor unit for individual control of the air conditioner 13.

However, in the case of a building management system including an air conditioner 13, since indoor units are generally disposed in each room of a building, at least one loan apparatus 11 connected to the indoor unit is required, so the cost of building a building management system is required. There is this rising problem. In addition, the air conditioner 13 connected to the BMS controller 10 has a problem that it is impossible to control from the outside.

Accordingly, an object of the present invention is to connect an air conditioner composed of one or more indoor units and an outdoor unit to one gateway, and receive the gateway from a central controller and an air conditioner that centrally controls a plurality of electric devices and air conditioners constructed in a building. It is an object of the present invention to provide a building management system and an operation method of converting data and controlling an air conditioner connected to a gateway from the outside.

Building management system according to the present invention is connected to the air conditioner composed of one or more indoor units and outdoor units, a Lone Walk network, a central controller for central control of the air conditioner and a plurality of electrical equipment, connected to the Internet the air conditioner A remote controller for controlling and a gateway for interconverting different protocols used on the network of the central controller, the remote controller and the air conditioner.

In addition, the operation method of the building management system according to the present invention comprises the steps of receiving data for controlling the air conditioner consisting of at least one indoor unit and outdoor unit from at least one of the central controller connected to the Lone Walk network and the remote controller connected to the Internet Converting a protocol of the received data into a protocol of an air conditioner and transmitting the protocol to the air conditioner, and converting a protocol of data received from the air conditioner into one of the protocol of the central controller and the remote controller. Steps.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is an external view illustrating a configuration of a building management system according to an exemplary embodiment of the present invention.

Referring to FIG. 2, a building management system (BMS) includes an air conditioner 230 including one or more indoor units 232 and an outdoor unit 231, and a plurality of electrical devices in a building connected to a loan walk network. 200) and a central controller 220 for integrated control of the air conditioner 230, and a remote controller 210 connected to the Internet to control the air conditioner 230, connected to the air conditioner 230, And a gateway 300 that interconverts the different protocols used on the network of the central controller 220 and the remote controller 210.

The air conditioner 230 is composed of one or more indoor unit 232 and outdoor unit 231, the indoor unit 232 and outdoor unit 231 may be formed of a network in a variety of protocols, preferably RS-485 protocol A network is formed.

The air conditioner 230 is controlled by the central controller 220 connected to the loanwork network through the connected gateway 300 and the remote controller 210 connected to the Internet, and transmits data on the operated state to the gateway 300. It transmits to the central controller 220 and the remote controller 210 through.

The central controller 220 is connected to the loan walk network, and centrally controls a plurality of electrical devices 200 constituting the building management system. In addition, the central controller 220 is connected to the gateway 300 to control the air conditioner 230 connected to a different network, and the data transmitted from the air conditioner 230 is received.

At this time, the LoneWorks network is a network formed by LONWorks (Local Operating Network Works) system used for distributed control system of industrial automation.It is a control communication protocol developed by Echelon in the United States. stress the interoperability of devices).

The remote controller 210 is connected to the gateway 300 and the Internet to control the air conditioner 230 built in the building, and the data transmitted from the air conditioner 230 is received. At this time, the remote controller 210 is the data is transmitted to the Internet protocol used on the Internet. For example, the Internet protocol uses the Transmission Control Protocol / Internet Protocol (TCP / IP), which is the de facto standard for current computer networks, the Hyper Text Transfer Protocol (HTTP), which serves to send and receive hypertext documents on the Web, and the telephone line. SLIP / PPP (Serial Line Internet Protocol / Point To Point Protocol) is a protocol for connecting to a host.

In addition, the remote controller 210 includes all devices capable of transmitting data for controlling and checking the air conditioner 230 through the connected Internet. For example, the remote controller 210 may be a computer, laptop, PDA, etc. connected to the Internet.

The gateway 300 interconverts the different protocols used on the network of the connected central controller 220, remote controller 210 and air conditioner 230.

The gateway 300 controls the protocol of the data received from at least one of the central controller 220 and the remote controller 210 to control and check the status of the air conditioner 230 of the network to which the air conditioner 230 is connected. Converting the protocol to the air conditioner 230 and converting the protocol of the data received from the air conditioner 230 into at least one of the Rontalk protocol and the Internet protocol, and converting the protocol into a central controller 220 and The converted data is transmitted to any one of the remote controllers 210.

3 is a block diagram showing the configuration of a building management system according to an embodiment of the present invention. Referring to FIG. 3, the building management system includes an air conditioner 230, a central controller 220, a remote controller 210, and a gateway 300, an air conditioner 230, a central controller 220, and The remote controller 210 is as described above.

The gateway 300 includes a communication unit 310 for transmitting and receiving data of the remote controller 210, the central controller 220, and the air conditioner 230, a memory 340 in which protocol data is stored, and a communication unit 310. The converter 320 converts the received data according to the protocol data stored in the memory 340, and a controller for analyzing the received data and converting the protocol of the received data according to the analysis result through the converter 320. 330.

The communication unit 310 includes one or more communication modules so that data for at least one protocol is transmitted and received. That is, the communication unit 310 transmits / receives data to / from the first communication unit 311 to which data is transmitted / received with the remote controller 210, the second communication unit 312 to which data is transmitted to / received from the central controller 220, and the air conditioner 230. And a third communication unit 313.

The memory 340 stores the Lontalk protocol data of the Lonwalk network, Internet protocol data of the Internet, and the protocol of the air conditioner. In particular, the memory 340 is a protocol of the air conditioner 230 corresponding to at least one of the rontalk protocol data and the internet protocol data, that is, the protocol data of the air conditioner 230 corresponding to the rontalk protocol data and the Internet. Protocol data of the air conditioner 230 corresponding to the protocol data are stored, respectively.

In addition, the memory 340 may store data transmitted and received through the communication unit 310. That is, the data transmitted from at least one of the central controller 220 and the remote controller 210 or the state of the air conditioner 220 received from the air conditioner 220 to control the air conditioner 230. Informing data may be stored.

The conversion unit 320 converts the protocol of the received data according to the protocol data stored in the memory 340, and the converted data is provided through the communication unit 310, the air conditioner 230, the central controller 220 and the remote controller To one of 210. For example, when data for controlling the air conditioner 230 is received from the central controller 220, the conversion unit 320 converts the rontalk protocol of the received data into the protocol of the air conditioner.

The controller 330 analyzes the received data, and according to the analysis result, the converter 320 converts the protocol of the received data into one of the air conditioner 230, the central controller 220, and the remote controller 210. The protocol is converted into a protocol, and the protocol-converted data is transmitted to any one of the air conditioner 230, the central controller 220, and the remote controller 210 corresponding to the converted protocol.

That is, the controller 330 analyzes the received data so that the received data is one of control and status check of the air conditioner 230, or at least one of the central controller 220 and the air conditioner 230. Determine if the data is for checking the connection status. Also, the controller 330 converts the protocol of the received data according to the destination stored in the header of the received data and transmits the protocol to the destination.

The controller 330 analyzes data received from at least one of the central controller 220 and the remote controller 210 and receives the received data if the received data is data for any one of control and status check of the air conditioner 230. The protocol for the data is converted into the protocol of the air conditioner 230 and transmitted to the air conditioner 230. In addition, the control unit 330 analyzes the data received from the air conditioner 230, so that the conversion unit 320 converts the protocol of the received data according to the destination included in the data to transmit to the destination. In this case, when data is received from the central controller 220 and the remote controller 210 at the same time, the controller 330 preprocesses the data received from the central controller 220.

For example, if the received and analyzed data is data for controlling the air conditioner 230 from the central controller 220, the control unit 330 transmits the received data to the conversion unit 320 and the conversion unit 320. The data converted by the protocol of the air conditioner 230 is transmitted to the air conditioner 230. In addition, the controller 330 analyzes the data received from the air conditioner 230, and if the received data is data about a state operated by the central controller 220, the controller 330 is applied to the data received by the converter 320. The protocol is converted into a rontalk protocol and transmitted to the central controller 220.

In addition, the control unit 330 stores at least one of data transmitted for the control and status check of the air conditioner 230 and data representing the state received from the air conditioner 230 in the memory 340, thereby storing the central part. The data stored in the memory 340 may be transmitted to the central controller 220 and the remote controller 210 according to the data for checking the state of the air conditioner 230 received from the controller 220 and the remote controller 210. have. In this case, the memory 340 may receive data indicative of the state of the air conditioner 220 at predetermined intervals, thereby periodically updating the stored data.

If the received data is data for checking the connection state of at least one of the central controller 220 and the air conditioner 230, the controller 330 generates a check signal for checking the connection state to check the connection state. To the device. At this time, the check signal is converted into the protocol of the device to check the connection state by the conversion unit 320 is transmitted.

The control unit 330 repeatedly transmits the generated check signal a predetermined number of times, and temporarily stores the received frequency of the received response signal when a response signal to the check signal transmitted from the air conditioner 230 is received within a predetermined time. . In addition, the control unit 330 generates the result data according to the temporarily stored reception frequency and transmits it to the remote controller 210.

For example, if the control unit 330 repeatedly transmits the check signal five times, the result data according to the number of times of the temporarily stored response signal is received five times, if the response signal is received within a predetermined time 'connection status is very good' When received three times, the result data such as 'good connection', once received 'connection is very poor', and if there is no response signal is received, such as 'not connected' is generated.

A control method of the building management system configured as described above will be described with reference to FIGS. 4 and 5.

4 is a flowchart illustrating a control method of a building management system according to a first embodiment of the present invention.

Referring to FIG. 4, the gateway 300 receives data from at least one device of a central controller 220 connected to a loan walk network and a remote controller 210 connected to the Internet (S400). In this case, when the data is received at the same time from the central controller 220 and the remote controller 210, the gateway 300 preprocesses the data transmitted from the central controller 220.

The gateway 300 determines whether the received data is data received from the remote controller 210 (S410), and if the received data is received from the remote controller and is not data for checking a connection state (S420), the received data The protocol is converted into the protocol of the air conditioner 230 (S430) and transmitted to the air conditioner 230 (S440). That is, if the gateway 300 is not data for confirming a connection state among data received from the central controller 220 or data received from the remote controller 210, the gateway 300 stores the received data of the air conditioner 220. The protocol is converted to the air conditioner 220 and transmitted.

When the gateway 300 receives data indicating a state from the air conditioner 230 (S450), the gateway 300 converts the protocol for the received data into a protocol of one of the devices of the central controller 220 and the remote controller 210. (S460), the converted data is transmitted to the device corresponding to the converted protocol (S470). At this time, the received data is converted into the protocol of the device corresponding to the data transmitted to the air conditioner 230 is transmitted.

For example, when data for controlling the air conditioner 230 is received from the central controller 220, the gateway 300 converts the protocol for the received data into the RS-485 protocol to convert the air conditioner 230. If the data indicating the state of the air conditioner 230 after the air conditioner 230 is controlled by the transmitted data is received, the received data is converted into a Rontalk protocol to the central controller 220. send.

5 is a flowchart illustrating a control method of a building management system according to a second embodiment of the present invention.

Referring to FIG. 5, if the received data is data for checking the connection state of at least one of the central controller 220 and the air conditioner 230 received from the remote controller 210, In operation S420, a check signal is generated (S500), and the protocol of the check signal generated by the protocol corresponding to the device to be checked is converted (S510).

The gateway 300 transmits a check signal converted from a protocol to a device to check (S520), and when a response signal to the transmitted check signal is received within a predetermined time (S530 and S540), the number of reception of the received response signal is received. Temporarily stores (S550). In addition, the gateway 300 repeatedly transmits the check signal a predetermined number of times (S560), thereby generating result data according to the number of times of receiving the response signal with respect to the transmitted check signal (S570).

For example, the gateway 300 repeats the transmission of the check signal three times. If the number of reception of the response signal is 3, the connection state is very good, the connection state is good 2, the connection state is bad. If it is 0, the result data indicating 'not connected' is generated.

The gateway 300 transmits the generated result data to the remote controller 210 (S580).

While preferred embodiments of the present invention have been shown and described, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific scope of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be understood individually from the technical idea or the prospect of the present invention.

As described above, the building management system and the control method according to the present invention is constructed by building a building management system by converting the protocol of data transmitted and received to and from the central controller and the remote controller by connecting one or more indoor units and outdoor units to one gateway The cost is reduced. In addition, it is possible to remotely control the air conditioner built in the building through the remote controller connected to the Internet from the outside, and to check the connection status of the central controller and the air conditioner connected to the gateway. To provide.

Claims (11)

An air conditioner composed of at least one indoor unit and an outdoor unit; A central controller connected to a loan walk network to centrally control the air conditioner and a plurality of electric devices; A remote controller connected to the Internet to control the air conditioner; And And a gateway for interconverting different protocols used on the network of the central controller, the remote controller, and the air conditioner. The method of claim 1, The gateway is connected to the air conditioner, the central controller and the remote controller communication unit for transmitting and receiving data; A conversion unit for converting a protocol of data received through the communication unit; And And a control unit for analyzing the received data and controlling the conversion unit to convert the protocol of the received data according to an analysis result. The method of claim 2, The controller determines whether the data received from the remote controller is data for checking a connection state of at least one of the air conditioner and the central controller, and checks if the received data is data for checking the connection state. Building management system, characterized in that for generating a signal. The method of claim 3, wherein The control unit causes the generated check signal to be repeatedly transmitted a predetermined number of times, and generates a result data corresponding to the number of receptions of the response signal to the transmitted check signal within a predetermined time. The method of claim 2, And the controller preprocesses the data received from the central controller when data is received simultaneously from the central controller and the remote controller. The method of claim 2, The gateway may further include a memory configured to store at least one protocol data of the RonTalk protocol data of the Lonwalk network and the Internet protocol data of the Internet corresponding to the protocol data of the air conditioner, respectively. Management system. Receiving data for controlling an air conditioner consisting of at least one indoor unit and an outdoor unit from at least one of a central controller connected to a loanwork network and a remote controller connected to the Internet; Converting a protocol of the received data into a protocol of an air conditioner and transmitting the protocol to the air conditioner; And And converting a protocol of data received from the air conditioner into one of the protocol of the central controller and the remote controller. The method of claim 7, wherein Determining whether the data received from the remote controller is data for checking a connection state of at least one of the central controller and the air conditioner; If the received data is data for checking the connection state, generating a check signal and transmitting it to a device to check the connection state; And And generating result data according to a response signal to the check signal and transmitting the result data to the remote control unit. The method of claim 8, And the result data is generated by the number of times of receiving a response signal received within a predetermined time with respect to the transmitted inspection signal by repeatedly transmitting the inspection signal a predetermined number of times. The method of claim 7, wherein And transmitting the data converted from the air conditioner to the device corresponding to the converted protocol to the device corresponding to the converted protocol. The method of claim 7, wherein The control method of the air conditioner is a control method of a building management system, characterized in that the RS-485 communication method.

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