KR102164805B1 - Air conditioner and method - Google Patents

Abstract

The present invention relates to an air conditioner and a method of operation thereof. The present invention relates to an air conditioner and a method of operation thereof. By providing an integrated controller that integrates, controls and monitors a plurality of devices and air conditioners in a building, a single integrated network does not separate the building control network and the air conditioner network By forming and controlling, mutual communication is possible regardless of data properties, and comprehensive control and management are possible, so that the convenience of control and management is greatly improved.

Description

Air conditioner system and its operation method {Air conditioner and method}

The present invention relates to an air conditioner system and a method of operation thereof, in particular, not only a number of devices in a building, but also an air conditioner including indoor and outdoor units, as well as an air conditioner system for integrating and controlling a plurality of devices in a building, and its operation. It's about how.

The air conditioner is installed to provide a more comfortable indoor environment to humans by discharging cold and hot air into the room to create a pleasant indoor environment, adjusting the indoor temperature, and purifying the indoor air. In general, an air conditioner includes an indoor unit configured with a heat exchanger and installed indoors, and an outdoor unit configured with a compressor and a heat exchanger to supply refrigerant to the indoor unit.

The air conditioner is controlled separately from an indoor unit composed of a heat exchanger and an outdoor unit composed of a compressor and a heat exchanger, and is operated by controlling power supplied to the compressor or the heat exchanger. In addition, the air conditioner may be connected to at least one indoor unit to the outdoor unit, and is operated in a cooling or heating mode by supplying a refrigerant to the indoor unit according to a requested operation state.

The air conditioner is operated for cooling or heating according to the flow of the refrigerant.In cooling operation, when a high-temperature, high-pressure liquid refrigerant is supplied to the indoor unit through the heat exchanger of the outdoor unit from the compressor of the outdoor unit, the refrigerant is expanded and evaporated in the indoor unit. As the temperature of the air decreases and the indoor fan rotates, cool air is discharged into the room.When a high-temperature and high-pressure gas refrigerant is supplied to the indoor unit from the outdoor unit's compressor during heating operation, the high-temperature, high-pressure gas refrigerant is liquefied in the heat exchanger of the indoor unit. Air warmed by the released energy is discharged into the room according to the operation of the indoor fan.

Recently, a building control system has been provided that can control not only air conditioners but also devices installed in buildings by interworking with each other, and integrating and controlling devices in buildings. By combining the air conditioner with this building control system, it became possible to manage the building overall.

However, in the conventional building control system, although the control is performed in conjunction with an air conditioner, the function is limited. There is a problem that only basic control functions such as ON/OFF can be monitored, and functions that are actually required such as schedule management, power distribution function, and peak power control cannot be used.

An object of the present invention is an air conditioner that forms and controls an integrated network without dividing a building control network and an air conditioner network by providing an integrated controller that integrates, controls, and monitors a plurality of devices and air conditioners in a building. It relates to a system and a method of operation thereof.

An air conditioner system according to the present invention includes a plurality of air conditioner units connected through an air conditioner network; A plurality of building control devices connected through a building control network; And an integrated controller connected to the air conditioner unit and the building control device to monitor and control the operation of the air conditioner unit and the building control device by integrating the air conditioner unit and the building control device. It characterized in that it comprises a HVAC communication unit for transmitting and receiving data with the unit and a building control communication unit for converting data to transmit and receive data with the building control device.

The operating method of an air conditioner system of the present invention includes the steps of generating a control command for operation control according to the setting when a setting for an air conditioner unit or a building control device is input; When the control target is set for the air conditioner unit, a control command is applied to the HVAC communication unit, and the HVAC communication unit determines the connected port and communication method according to the type of the unit to be controlled among the air conditioner units. Transmitting a control command to a corresponding unit; And in the case of setting for the building control device, applying a control command to the building control communication unit, converting the control command to building control data by the building control communication unit, and transmitting the control command to the building control device through a Lone Walk communication module. ; Includes.

In addition, the operating method of the air conditioner system of the present invention comprises the steps of connecting an external terminal or a remote controller to the web server; Displaying the operating state data of the air conditioner unit or the building control device through the web page; Inputting a setting for the air conditioner unit or the building control device through a control menu on the web page; And applying a setting input through a web server of the external terminal or a remote controller to a control unit by a web server control unit. It includes more.

The air conditioner system and its operation method according to the present invention configured as described above have an integrated controller that connects and controls a plurality of devices and air conditioning devices in a building, thereby forming a single network without any network division. Regardless of whether it is possible to communicate with each other, comprehensive control and management are possible, so that the convenience of control and management is greatly improved.

1 is a diagram showing the configuration of an air conditioner system according to the present invention.
2 is a block diagram showing the configuration of the integrated controller of the air conditioner system according to the present invention.
3 is a block diagram showing the configuration of the communication unit of the integrated controller according to the present invention.
4 is a diagram referenced to explain the control function of the integrated controller according to the present invention.
5 is a flow chart illustrating a method of operating an air conditioner system according to the present invention.
6 is a flowchart illustrating a method of operating a building control device of an air conditioner system according to the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only these embodiments make the disclosure of the present invention complete, and are common knowledge in the art to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

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

1 is a diagram showing the configuration of an air conditioner system according to the present invention.

As shown in FIG. 1, the air conditioner system includes an air conditioner unit including a building control device 40, an indoor unit 60, an outdoor unit 50, a ventilation unit 70, and a chiller 80, and It includes an integrated controller 10. In addition, the air conditioner system further includes a remote controller 30 connected to the integrated controller 10 to perform monitoring and control.

The building control device 40 includes a mobile device control unit 41, a security control unit 42, and a lighting control unit 43, and in some cases, a separate building controller (not shown) that monitors and controls the building control device. ) May be further included.

The moving device control unit 41 controls the operation of moving devices in the building, such as elevators and escalators. The security control unit 42 controls the operation of security devices such as intrusion detection devices, alarm devices, and surveillance cameras against external intrusion, and disaster prevention devices such as gas leak detectors and fire detectors. The lighting control unit 43 controls and manages lighting in the building.

The integrated controller 10 is interconnected with the building control device 40 through a building control network, and controls its operation by transmitting data according to a protocol according to the building control.

The air conditioner unit includes an outdoor unit 50 and an indoor unit 60, a ventilation unit 70, an air purifier, a heater, and a chiller 80 such as a boiler, a heating unit, a humidifying unit, a dehumidifying unit, a heat pump, a showcase, etc. Include. The indoor unit can be applied in any case as long as it can be connected to the integrated controller 10 among the stand type, the wall-mounted type, and the ceiling type, but for convenience of explanation, a ceiling type is used as an example.

Here, the outdoor unit 50 is composed of a compressor and an outdoor heat exchanger, and compresses or heat exchanges the refrigerant to supply the refrigerant to the indoor unit 60 according to the operating state of the air conditioner. The outdoor unit is driven by the demand of the indoor unit, and the number of operation of the outdoor unit and the number of operation of the compressor installed in the outdoor unit are varied as the cooling/heating capacity is varied in response to the driven indoor unit.

One indoor unit 60 may be connected to one outdoor unit, but in some cases, a plurality of indoor units may be connected to one outdoor unit, and one or two or more of these indoor units may be provided in one indoor unit.

The indoor unit 60 is an expansion valve (not shown) that expands the refrigerant supplied from the connected outdoor unit 50, an indoor heat exchanger that heats the refrigerant, and allows indoor air to flow into the indoor heat exchanger, and the heat-exchanged air is exposed to the room. It includes an indoor unit fan (not shown), a plurality of sensors (not shown), and a control means (not shown) for controlling the operation of the indoor unit. The indoor unit 60 includes a discharge port for discharging heat-exchanged air, and a wind direction control means for opening and closing the discharge port and controlling the direction of discharged air is provided at the discharge port. The indoor unit adjusts the air volume by controlling the intake air and the discharged air by controlling the rotation speed of the indoor unit fan. In addition, the indoor unit may further include a human body detecting means for detecting a human body existing in the indoor space in some cases. In addition, the indoor unit 60 may further include an output unit for displaying the operation state and setting information of the indoor unit and an input unit for inputting setting data. The indoor unit body is connected to a remote control (not shown) in a wired or wireless manner, an operation is set according to data input from the remote control, and a driving state can be displayed through the remote control.

The outdoor unit 50 is at least one compressor (not shown) that compresses the incoming refrigerant to discharge a high-pressure gaseous refrigerant, and separates the gaseous refrigerant and the liquid refrigerant from the refrigerant to prevent the non-vaporized liquid refrigerant from flowing into the compressor. Accumulator (not shown), oil separator that recovers oil from refrigerant discharged from the compressor, outdoor heat exchanger (not shown) that condenses or evaporates refrigerant by heat exchange with outside air, and heat exchange of outdoor heat exchanger more smoothly For this purpose, an outdoor fan (not shown) that introduces air into the outdoor heat exchanger and discharges the heat-exchanged air to the outside, a four-way valve (not shown) that changes the flow path of the refrigerant according to the operation mode of the outdoor unit, and at least one A pressure sensor (not shown), at least one temperature sensor (not shown) that measures temperature, and a control configuration that controls the operation of the outdoor unit and communicates with other units. The outdoor unit further includes a number of other sensors, valves, and supercooling devices, but a description thereof will be omitted below.

The integrated controller 10 is connected to the indoor unit 60, the outdoor unit 50, and other units 70, 80, and transmits and receives data according to a predetermined communication method, thereby monitoring the operation of the unit and inputting the user. In response to a command or a specified schedule or setting, a control command is generated and transmitted to each unit to perform a predetermined operation.

The integrated controller 10 may control a plurality of units on an individual unit basis, or divide at least one unit into a predetermined group or zone and control the operation in a group unit or a zone unit. The integrated controller 10 controls a plurality of units to operate individually as well as interlocking with each other. In particular, when power consumption is limited, the building control device 40 and the air conditioner unit can be controlled to operate. I can.

At this time, the integrated controller 10 and the air conditioner are interconnected through an air conditioner network to transmit and receive data, and transmit data using a protocol according to the air conditioner network.

The integrated controller 10 not only transmits and receives data according to the building control device and the building control protocol, but also transmits and receives data according to the protocol of the air conditioner network to integrate and control and monitor the building control device and the air conditioner unit. . Accordingly, the integrated controller 10 connects the building control device 40 of the building control network and the air conditioner unit of the air conditioner network into one and manages it as an integrated network.

At this time, the integrated controller 10 has a communication module necessary for each of the air conditioner network, the building control network, and data transmission in both networks, and stores information on each protocol, and in some cases, a different protocol It may include a converter or gateway for data processing. When the communication method between the indoor unit and the outdoor unit is different from the communication method with other units, the integrated controller has a communication module corresponding to each communication method, and converts and processes data in some cases. The integrated controller 10 converts and processes data through the gateway, transmits control commands to the building control device and the air conditioner unit, respectively, and receives the data to monitor the operation of each unit and device.

The remote controller 30 connects to the integrated controller 10 to transmit and receive information about the building control device and the air conditioner unit from a distance, thereby controlling the building control device or the air conditioner unit from a distance. The control command of the remote controller is received by the integrated controller and transmitted to each unit by the integrated controller.

At this time, the integrated controller 10 operates as a web server, and the remote controller 30 connects to the web server of the integrated controller to monitor and control the air conditioner unit and the building control device.

2 is a block diagram showing the configuration of the integrated controller of the air conditioner system according to the present invention.

2, the integrated controller 10 includes a data unit 160, an input unit 120, an output unit 130, a web server control unit 150, a gateway 140, a building control communication unit 170, and an HVAC communication unit. (180), it includes a general-purpose communication unit 190 and a control unit 110 for controlling the overall operation of the integrated controller.

The input unit 120 includes at least one button or a touch input means, and in some cases, may include both a button and a touch input means. The input unit 120 applies a user command inputted according to an operation of an input means provided to the control unit 110. In some cases, the integrated controller 10 may not be equipped with an input unit capable of inputting data for operation setting, and in this case, control data is input through a connection to an external terminal of the web server, for example, the remote controller 30. I can receive it.

The output unit 130 is a predetermined display means for outputting numbers, characters, special characters or images, a speaker outputting a predetermined sound effect or warning sound, and is lit or flashed to output an operating state, a connection state with each device, or a warning. It may include a lamp.

The output unit 130 outputs a user command input through the input unit 120 to a screen, or displays a predetermined screen corresponding to the input user command, and provides information on the indoor unit's operation setting, operation status, and abnormality. Is displayed. In addition, the output unit 130 outputs a predetermined sound effect or warning sound in a specific situation, such as when an operation starts, ends, when an abnormality occurs, or when there is an input by a user. The output unit 130 may display an operation state or a network connection state in color using a lamp.

The data unit 160 includes setting data input through the input unit 120, control data for operation control of the integrated controller, data transmitted and received through the gateway 140 and a plurality of communication units 170 to 190, and web server data. Is saved.

The data unit 160 stores operation state data and control data of the air conditioner received from the HVAC communication unit 180, and stores data on the building control apparatus received from the building control communication unit 170. In addition, the data unit 160 stores communication data for data conversion of the gateway 140 and communication between different networks, and information on a data attribute or data format supported by the remote controller 30.

The building control communication unit 170 transmits and receives data to and from a plurality of building control devices 40 through a building control network. The HVAC communication unit 180 transmits and receives data to and from air conditioner units such as the indoor unit 60, the outdoor unit 50, the ventilation unit 70, and the chiller 80, and applies the data to the control unit 110. The universal communication unit 190 is connected to the Internet or the like to transmit and receive data with an external terminal (not shown) or a remote controller 30. At this time, the universal communication unit 190 transmits the data of the web server in response to the request of the remote controller 30, and applies the data received from the remote controller 30 to the web server.

The gateway 140 enables data transmitted and received through the building control communication unit 170, the HVAC communication unit 180, and the universal communication unit 190 to transmit and receive data using a designated protocol, so that data communication between different communication methods is possible. Let's do it.

The control unit 110 stores data transmitted and received through the plurality of communication units 170 to 190 in the data unit 160 and controls input/output of data through the input unit 120 and the output unit 130. The control unit 110 allows the operation setting to be changed according to the received or input data, and controls the operation in response to the operating state of the building control device and the air conditioner unit.

The web server control unit 150 functions as a server so that an external terminal or remote controller 30 through the Internet can access the integrated controller 10 to check data on the building control device 40 and the unit of the air conditioner. Control and apply data to the control unit 110 so that the building control device 40 and the air conditioner unit operate in response to data input through an external terminal or a remote controller 30.

The web server control unit 150 stores the input data in the data unit 160, and when operation information of the building control device 40 or the air conditioner unit is stored or updated in the data unit 160, the web server By updating and displaying the data, the changed data is transmitted to the remote controller 30 so that the operation status can be checked through an external connection.

The web server control unit 150 constitutes a web page with a control menu that allows an external terminal or a remote controller 30 to access, check the status of the operation of the building control device 40 and the air conditioner unit, and input commands. And, by periodically updating the web page, new information is provided. At this time, the web server control unit 150 communicates with the external terminal or the remote controller 30 through the universal communication unit 190.

The web server control unit 150 may restrict access by performing authentication for the access of the external terminal or the remote controller 30, and display data displayed differently according to the access authority.

The control unit 110 controls the operation of the building control device 40 and the air conditioner unit in response to data input through the input unit 120 or the web server control unit 150, and receives the operation information to obtain the data unit. Save to 160.

The control unit 110 controls whether the air conditioner unit or the building control device is operated, a mode according to operation, and operation setting, and also performs schedule management, power distribution, power consumption management, peak power control or demand control. Perform. At this time, the control unit 110 includes operation control data for the building control device 40 and the air conditioner unit from an external terminal or a remote controller 30 through the web server control unit 150, as well as schedule data, power distribution setting data, and Receives power consumption control data, sets the operation of the building control device 40 and the unit of the air conditioner and controls the operation.

In addition, the control unit 110 controls data transmission and reception through the building control communication unit 170, the HVAC communication unit 180, and the universal communication unit 190, and communication between different networks is possible using the converted data through the gateway 140. By doing so, the building control device 40 and the air conditioner unit form an integrated network.

3 is a block diagram showing the configuration of the communication unit of the integrated controller according to the present invention.

As shown in FIG. 3, the building control communication unit 170 of the integrated controller is composed of a communication processing unit 171, a signal conversion unit 172, a management unit 173, and a loan work communication module 174.

The building control communication unit 170 is provided in the integrated controller 10 and transmits a control command to the building control device 40 according to the control command of the control unit 110, and receives operation or status information of the building control device 40. And applied to the control unit 110.

At this time, the communication processing unit 171 receives a control command from the control unit 110 through the control unit 110 and CAN communication (CAN), and analyzes and processes the received control command. In addition, it controls the transmission and reception of data through the Lone Walk communication module 174.

The loan work communication module 174 transmits a control command to the building control device 40 under the control of the communication processing unit 171 and receives data from the building control device 40. Each building control device 40 is also provided with a Lone Walk communication module.

The signal conversion unit 172 converts the control command of the control unit 110 received and analyzed by the communication processing unit 171 into a loan standard variable so that it can be transmitted through the loan work communication module 174. In addition, the signal conversion unit 172 converts the data received from the building control device 40 through the loan work communication module 174 to the control unit 110 and applies the data to the communication processing unit 171.

At this time, the management unit 173 manages the loan standard variables used for conversion of data into the loan standard variables in the signal conversion unit 172.

4 is a diagram referenced to explain the control function of the integrated controller according to the present invention. 4, the integrated controller 10 manages the web server through the web server controller 150, and the remote controller 30 or an external terminal is connected to the integrated controller 10 through a web user interface (Web UI). It is connected to monitor and control the building control device 40 and the air conditioner unit.

The integrated controller 10 manages data for each service function by building a common library in the data unit 160, and processes and manages data for each unit.

At this time, the integrated controller 10 provides schedule, history information, control and monitoring functions to the connected air conditioner unit and building control device 40, and these functions are output through the display of the output unit 130, or Or, it can be output through the web page of the web server.

The control unit 110 stores and manages facility information for each unit and device for the connected air conditioner unit and the building control device 40, and controls its operation based on control information according to the type of unit or device. do.

The building control communication unit 170 internally transmits and receives data through the control unit 110 and CAN communication (CAN), and transmits a control command to the connected building control device 40 to control its operation, and the building control device 40 The data is received and applied to the control unit 110.

The universal communication unit 190 manages access to the web server and controls the connection of the remote controller 30 or an external terminal.

In addition, the HVAC communication unit 180 transmits and receives data to and from the connected air conditioner unit so that each unit operates according to a control command from the control unit 110 and applies data received from each unit to the control unit 110. At this time, each connected unit may be connected to an integrated controller and a socket according to the connection method or communication method, or may be connected by RS485 communication, or connected by a modbus method using a general serial port or Ethernet communication, and the HVAC communication unit 180 ) Processes data for each unit, etc.

The integrated controller 10 controls each unit according to the facility information provided for the air conditioner unit, transmits and receives data to the unit according to the connected communication method, and controls the building separately provided in relation to the building control device 40. The operation is controlled and managed through internal communication with the communication unit 170.

Accordingly, the integrated controller 10 performs schedule control by applying a service function provided in a unit or building control device not equipped with a schedule function. At this time, since the control unit 110 does not have its own schedule function in the unit or building control device, the integrated controller 10 manages the schedule and transmits a control command for the event when an event occurs to control the operation, thereby controlling the air conditioner unit or the building. Make the device operate according to a certain schedule.

5 is a flow chart illustrating a method of operating an air conditioner system according to the present invention.

As shown in Figure 5, the control unit 110 of the integrated controller 10 stores data on the air conditioner unit and the building control device 40 in the data unit 160, and the web server control unit 150 and By transmitting and receiving data, the data on the air conditioner unit and the building control device 40 are reflected in the web server (S201).

The web server control unit 150 manages data on a web page launched in the web server and manages access to the web server from the outside. In this case, the web server may be provided inside the integrated controller 10 or may be separately provided outside.

When the remote controller 30 or an external terminal accesses the web server through the Internet (S202), the universal communication unit 190 of the integrated controller 10 transmits data on the connection of the remote controller 30 to the web server control unit 150 And the web server controller 150 authenticates the remote controller 30 for accessing the web server (S203). When the authentication for the remote controller 30 is completed, the web server control unit 150 allows the data of the web server to be provided to the remote controller 30 (S204-1), and the universal communication unit 190 transmits the data of the web server. It is transmitted to the remote controller 30 (S204-2) so that the remote controller 30 can monitor data on the air conditioner unit and the building control device 40.

The remote controller 30 monitors the air conditioner unit and the building control device based on the output data, and inputs settings for the air conditioner unit or the building control device to control its operation (S205).

When the settings for the air conditioner unit are input from the remote controller 30, the setting data is transmitted to the universal communication unit 190 (S206-1), and the universal communication unit 190 stores the received setting data of the remote controller 30. It is applied to the web server control unit 150 (S206-2).

The web server control unit 150 generates a control signal corresponding to the setting data and applies it to the control unit 110 (S207), and the control unit 110 changes the operation setting of the air conditioner unit in response to the control signal ( S208). The web server controller 150 updates data of the web server according to the input setting data.

The control unit 110 generates a control signal according to the changed setting and applies it to the HVAC communication unit 180 to be transmitted to the air conditioner unit to be controlled (S209-1). At this time, the HVAC communication unit 180 transmits the control signal from the control unit 110 to the air conditioner unit in a predetermined communication method in response to the communication method of the control target air conditioner unit (S209-2). At this time, each of the plurality of air conditioner units may communicate with the integrated controller through different communication methods according to a connection method with the integrated controller 10.

The air conditioner unit changes the setting in response to the control signal received from the integrated controller 10 and operates accordingly (S210). For example, when the control signal is a control signal for changing the air volume, the air volume is increased or decreased in response to the control signal.

The air conditioner unit generates state information on the changed operation (S211), and transmits the state information to the integrated controller 10 (S212-1). The HVAC communication unit 180 receives status information from the air conditioner unit and applies it to the control unit 110 (S212-2).

The control unit 110 checks the status information of the air conditioner unit and applies it to the web server control unit 150 (S213). The web server control unit 150 updates the data of the web server based on the state information of the air conditioner unit (S214). When the data of the web server is updated, the updated data is transmitted to the connected remote controller 30 through the universal communication unit 190 (S215-1, S215-2), and the changed data is displayed on the remote controller 30. It becomes (S216).

6 is a flowchart illustrating a method of operating a building control device of an air conditioner system according to the present invention.

Referring to FIG. 6, the integrated controller 10 monitors and controls the building control device 40 in addition to the air conditioner unit. The control unit 110 of the integrated controller 10 stores data on the air conditioner unit and the building control device 40 in the data unit 160, and transmits and receives data to and from the web server control unit 150 to provide an air conditioner unit. And the data on the building control device 40 is reflected in the web server (S301).

When the remote controller 30 or an external terminal accesses the web server through the Internet (S302), the universal communication unit 190 applies data on the connection of the remote controller 30 to the web server control unit 150, and the web server The control unit 150 authenticates the remote controller 30 for accessing the web server (S303).

The web server control unit 150 transmits data through the universal communication unit 190 so that the data of the web server is provided to the remote controller 30 (S304-1, S304-2), and the remote controller 30 receives the received data. Is displayed on the screen to monitor its operation. The remote controller 30 can control the operation by inputting setting data for the building control device through the control menu of the provided web server (S305).

When the setting for the building control device 40 is input from the remote controller 30, the setting data is applied to the web server control unit 150 through the universal communication unit 190 (S306-1 and S306-2).

The web server control unit 150 generates a control signal corresponding to the setting data and applies it to the control unit 110 (S307), and the control unit 110 changes the setting for the building control device 40 in response to the control signal. (S308).

The control unit 110 generates a control signal according to the changed setting and applies it to the building control communication unit 170 so that the control signal is transmitted to the building control device 40 to be controlled (S309-1). At this time, the control unit 110 applies data to the building control communication unit 170 through an internal CAN communication (CAN).

At this time, the building control communication unit 170 analyzes the control signal of the control unit and converts the signal using a control variable corresponding to the control signal in order to transmit the control signal of the control unit 110 to the building control device 40 to be controlled. After that (S310), it is transmitted to the corresponding building control device 40 through the provided loan work communication module 174 (S311).

The building control device 40 changes the setting in response to the control signal received from the integrated controller 10 and operates accordingly (S312). The building control device 40 generates status information according to a change in operation or operation (S313), and transmits the status information to the integrated controller 10 (S314).

For example, when a schedule for lighting on and off is set, the integrated controller 10 generates a control signal for lighting control at a set time to be transferred to the lighting control unit 43 of the building control device 40. send. When receiving a control signal for lighting lighting from the integrated controller 10, the lighting control unit 43 controls the lighting at a specific location to be turned on in response to the control signal, and transmits the status information thereto to the integrated controller 10. Can be transmitted.

The building control communication unit 170 converts the state information received from the lighting control unit 43 (S315), and transmits the converted state information to the control unit 110 (S316).

The control unit 110 transmits data on the status information of the building control device 40 to the web server control unit 150 (S317), and the web server control unit 150 updates the data of the web server based on this (S318). ). The updated data is transmitted to the remote controller 30 through the universal communication unit 190 (S319-1 and S319-2), and the remote controller 30 displays the updated data on the screen (S320).

In the integrated controller 10, even if the setting data from the remote controller 30 is not input, the controller 110 transmits a separate control signal in response to the state information and operation setting of the building control unit 40 When a control function for a schedule or power consumption is set, the air conditioner unit or the building control device can be controlled by transmitting as a control signal in response to the setting data.

The integrated controller 10 reflects information according to controlling the operation of the unit of the air conditioner or the building control device 40 on the web server, and enables monitoring through the remote controller 30.

In particular, as the integrated controller 10 is connected to the building control device 40 through the building control communication unit 170, the building control device 40 as well as the air conditioner unit is integrated and controlled.

Even if all the constituent elements constituting an embodiment of the present invention are described as being combined into one or operating in combination, the present invention is not necessarily limited to this embodiment. As long as it is within the scope of the object of the present invention, depending on the embodiment, all the constituent elements may be selectively combined into one or more to operate.

All components may be implemented as one independent hardware, but a computer having a program module that performs some or all functions combined in one or more hardware by selectively combining some or all of the components It can also be implemented as a program.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention.

10: integrated controller 30: remote controller
40: building control device 41: mobile device control unit
42: security control unit 43: lighting control unit
50: outdoor unit 60: indoor unit
70: ventilation unit 80: chiller
110: control unit 120: input unit
130: output unit 150: web server control unit
170: Building Control and Communication Department 180: HVAC Communication Department
190: General-purpose communication department

Claims (14)

A plurality of air conditioner units connected through an air conditioner network;
A plurality of building control devices connected through a building control network; And
Including; an integrated controller connected to the plurality of air conditioner units and the plurality of building control devices, to integrate the plurality of air conditioner units and the plurality of building control devices to monitor and control the operation thereof; and
The integrated controller,
An HVAC communication unit for transmitting and receiving data to and from the plurality of air conditioner units;
A building control communication unit converting data to transmit and receive data to and from the plurality of building control devices;
A control unit that controls its operation according to settings for the plurality of air conditioner units or the plurality of building control devices, and determines and controls the operation state by analyzing data received from each air conditioner unit or each building control device ; And
A web server control unit implementing and managing a web server including operation state data of the air conditioner unit or the building control device and having a web page for controlling the air conditioner unit or the building control device; Air conditioner system comprising a. delete The method of claim 1,
The control unit controls whether the air conditioner unit or the building control device is operated, a mode according to operation, and operation settings, and performs schedule management, power distribution, power consumption management, peak power control or demand control. Air conditioner system characterized by. The method of claim 1,
The integrated controller further includes a gateway for converting data between data of different communication methods,
The control unit controls data transmission/reception through the building control communication unit, the HVAC communication unit, and the universal communication unit, and enables communication between different networks using the data converted through the gateway. The method of claim 1,
The building control communication unit
A loan walk communication module for transmitting and receiving data to and from the building control device;
A communication processing unit that analyzes and processes a control command of the control unit to control transmission and reception of data through the loan work communication module;
A signal conversion unit for converting a control command of the control unit and data of the loan work communication module; Air conditioner system comprising a. The method of claim 5,
The building control communication unit includes a management unit for managing loan standard variables used for data conversion in the signal conversion unit; Including more,
The signal conversion unit converts the control command of the control unit into a loan standard variable so that the control command can be transmitted through the loan work communication module, and converts data received through the loan work communication module. The method of claim 5,
The building control communication unit internally transmits and receives data through CAN communication with the control unit. The method of claim 1,
The integrated controller further comprises a general-purpose communication unit for transmitting and receiving data when an external terminal or a remote controller accesses the web server. The method of claim 8,
The web server control unit transmits operation state data of the air conditioner unit or the building control device through the universal communication unit in response to a request from the external terminal or the remote controller,
When setting data is received from the external terminal or the remote controller through a control menu provided from the web server, the air conditioner system is applied to the control unit. The method of claim 8,
The remote controller connects to the web server to receive and display data on the operation state of the air conditioner unit or the building control device, and the air conditioner unit or the building through a control menu provided from the web server. An air conditioner system comprising inputting and transmitting setting data for a control device. The method of claim 1,
The building control device is an air conditioner system comprising at least one of a mobile device control unit, a security control unit, and a lighting control unit. The method of claim 1,
The air conditioner system, wherein the air conditioner unit includes at least one of an indoor unit, an outdoor unit, a ventilation unit, and a chiller. When the settings for the plurality of air conditioners or the plurality of building control devices are input to an integrated controller connected to a plurality of air conditioner units and a plurality of building control devices, a control command for operation control according to the settings is generated. step;
In the case of setting for at least one air conditioner unit among the plurality of air conditioner units, a control command is applied to the HVAC communication unit, and the HVAC communication unit is divided according to the type of the air conditioner unit to be controlled. , Determining a connected port and a communication method, and transmitting the control command to the air conditioner unit; And
In the case of setting for at least one building control device among the plurality of building control devices, a control command is applied to the building control communication unit, and the building control communication unit converts the control command into data for building control and converts the control command into Lone Walk communication. Transmitting to the building control device through a module;
Determining an operating state by analyzing data received from the air conditioner unit or the building control device; And
Providing a web page for controlling the air conditioner unit or the building control device and including operation state data of the air conditioner unit or the building control device through a web server; of an air conditioner system comprising: How to operate. The method of claim 13,
Accessing the web server by an external terminal or a remote controller;
Displaying the operating state data of the air conditioner unit or the building control device through the web page;
Inputting a setting for the air conditioner unit or the building control device through a control menu on the web page; And
Applying a setting input through a web server of the external terminal or a remote controller to a control unit by a web server control unit; Operating method of the air conditioner system further comprising a.

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