KR20050035735A - Method and system for providing bidirectional control of remote-controlled air-conditioner by using wireless telecommunication network - Google Patents

Abstract

The present invention relates to a bidirectional control method and system for a remote control air conditioner using a mobile communication network.

 A feed automation system that calculates, stores, and transmits feed information including maximum generation capacity, maximum supply capacity, demand rate, and power reserve rate information; A remote load control system for receiving and storing the power supply information and the load information, and transmitting a remote control command including a peak load control command using a built-in peak load control algorithm; An internet network or a TCP / IP network providing a mutual communication connection function between the remote load control system and each of the remote control air conditioners; A mobile communication network configured to transmit and receive the remote control command and the load information through RF communication; And at least one air conditioner group unit configured to receive the remote control command, change a set temperature, or transmit the load information to the remote load control system through a wireless packet communication. Provide a control system.

According to the present invention, it is possible to accurately measure power consumption and predict peak load power reduction amount through bidirectional communication between a remote load control system and a remote air conditioner.

Description

Bidirectional control method and system for remote control air conditioner using mobile communication network {Method and System for Providing Bidirectional Control of Remote-Controlled Air-Conditioner by Using Wireless Telecommunication Network}

The present invention relates to a bidirectional control method and system for a remote control air conditioner using a mobile communication network. More specifically, the remote load control system may use peak data using data such as whether the remote control air conditioner is normally operated and power amount periodically transmitted from a plurality of terminal units at remote locations through a mobile communication network such as CDMA or GSM, which enables bidirectional control. The present invention relates to a method and system for controlling a remote control air conditioner by predicting a change in load power and transmitting a short message including a control command to a plurality of terminal units.

Air-Conditioner is a device that cools indoor air by using refrigerant. The temperature is set by applying feedback control, fuzzy control technology, etc. It has a built-in function to auto adjust. In general, in order to adjust the set temperature of the air conditioner, the command is inputted using the built-in control device using the key matrix or the remote control installed on the front, and the input of the temperature sensor, the compressor, Temperature control is performed by adjusting the fan output.

Every summer, the use of air conditioners is soaring to more than 40 million KW. The ratio of cooling power demand among the maximum power demand is continuously increasing from 17.68% (5834,000 KW) in 1998 to 19.64% (7325,000 KW) in 1999 and 19.76% (8101,000 KW) in 2000. In 2003, it is expected to account for 20.26% (8.9 million KW). As demand for cooling power continues to increase in the summer and power reserves reached 2.8% in 1994, additional power plants were constructed.In 2003, the supply capacity was 55.56 million KW and the maximum demand capacity was 49.59 million KW, which was 17%. Increased to a degree. However, since the demand for electricity is increasing steadily every year by more than 10%, it is not a situation that can guarantee a stable power supply.

Therefore, while the government may build a power plant in order to secure a sufficient reserve of power, the construction of the power plant is enormously costly and at least five years from design to completion. It is becoming very difficult to cope with the peak power demand due to increased demand for air conditioners in summer. Furthermore, except in summer, when the demand for cooling power is soaring, considering that power reserves typically exceed 30%, construction of power plants that require huge construction costs and construction periods is not desirable in terms of investment efficiency. . National disasters that occur when power demand exceeds supply capacity can cause serious and fatal losses to industrial facilities, so that power demand policies can be avoided by passive controls, such as ice storage systems or demand suppression tariffs. Therefore, the construction of a system that can be actively controlled has been required.

On the other hand, in the case of air conditioners, which occupy most of the electricity demand in the summer, the energy class 1 product is known to consume 1.6 KW / h when the calories are 4,500 Cal / h, so the set temperature is 1 ℃ based on 1 million units. Increasing will save 160,000 KW, which will increase the power reserve. From this point of view, a remote control air conditioner is more effective and realistic than building a power plant because a method of embedding a device capable of forcibly adjusting the set temperature of the air conditioner by wireless communication method such as radio call when the power reserve ratio in the central control system falls. And technical specifications of remote control air conditioners have been proposed and used in part.

1 is a block diagram schematically illustrating a unidirectional remote control air conditioner control system 100 using a wireless call network currently in use.

The conventional one-way remote control air conditioner control system 100 using a wireless call network includes a power supply automation system 110, a remote load control system 120, a wireless call network 130, and an air conditioner group unit 140. .

A power supply automation system (EMS) 110 is a system that is connected to various power generation facilities and performs a function of registering and managing a power generation facility. Information such as a maximum generation capacity, a maximum supply capacity, a demand rate, and a power reserve rate Calculate, store, and manage

The remote load control system 120 analyzes information such as power reserve ratio received from the power supply automation system 110, including the main controller 122 and the wireless call module 124, and controls the information through the wireless call network 130. Send the command. The remote load control system 120 uses the control command to transmit the OFF (OFF) control of the plurality of air conditioners (141 ~ 143) included in the air conditioner group unit 140, the cycle control (on / off cyclic repetition control), It performs temperature control and the like, and transmits a periodic signal (Vital Sign) for preventing unauthorized separation and life information. Here, the air conditioners 141 to 143 refer to a remote control air conditioner manufactured to enable remote control wirelessly, and an unauthorized separation means to arbitrarily separate a receiver (not shown) built in the air conditioners 141 to 143 without permission. it means.

The air conditioner group unit 140 includes a plurality of air conditioners 141 to 143 grouped on the basis of air conditioner capacity and the like, and sets the temperature of the air conditioners 141 to 143 according to a control signal received through the wireless call network 130. To change the function.

Patent for the unidirectional remote control air conditioner control system 100 using the wireless call network as described in FIG. 1, entitled “Communication Protocol for Remote Control Air Conditioner” on January 30, 2001 Application 2001-4152 is disclosed. Patent application No. 2001-4152 solves the problem caused by the conventional one-way remote control air conditioning control system using a wireless call network to perform a simple off control using a wireless call signal to completely stop the operation of the air conditioner, and various other functions. Will be added.

That is, the conventional one-way remote control air conditioner control method that performs only simple off control causes a backlash of users because the operation of the air conditioner is completely stopped, and the users do not have a great effect because they try to operate the air conditioner by supplying power again. I couldn't. Therefore, in patent application No. 2001-4152, instead of completely stopping the operation of the air conditioner, the user does not recognize the operation of the air conditioner for a certain period of time. Improved measures to prevent this are described.

However, since the control method of the remote control air conditioner described in Patent Application No. 2001-4152 is also a one-way remote control from the remote load control system 120 to the air conditioner group unit 140, the actual control of the remote control air conditioner behind the wireless call network 130 is performed. There is a fatal drawback of not being able to grasp the behavior. That is, only the control command is transmitted from the remote load control system 120 to the air conditioner group unit 140, and information such as an operation state or power consumption of the air conditioner is not transmitted from the air conditioners 141 to 143 to the remote load control system 120. Do not.

Therefore, in the conventional remote load control system 120, it is not possible to check whether the remote control command transmitted by the administrator without properly visiting the site where the remote control air conditioner is installed is properly transmitted or predict the power consumption. There was a disadvantage.

In addition, when the conventional one-way remote control air conditioner control system is installed in a premises where a plurality of air conditioners are installed, it is cumbersome to include a wireless call module for each remote control air conditioner. Moreover, although the remote control of the remote control air conditioner is mainly limited in July and August of the year, and the actual frequency of the actual remote control is very low, the communication charges due to the use of the wireless paging network 130 continue to occur. The user had to pay an undesired communication cost.

In order to solve the above problems, the present invention provides a remote load control system whether the normal operation of the remote control air conditioner periodically transmitted from a plurality of terminal units in the remote place via a mobile communication network such as CDMA, GSM, etc. capable of bidirectional control, power amount, etc. The purpose of the present invention is to provide a method and system for controlling a remote control air conditioner by predicting a change in peak load power amount using the data and transmitting a short message including a control command to a plurality of terminal units.

To this end, the present invention is a system for controlling a remote control air conditioner in both directions using a mobile communication network, connected to a plurality of power generation facilities to manage each of the power generation facilities, the maximum generation capacity, maximum supply capacity, demand rate and power reserve rate A power supply automation system for calculating, storing, and transmitting power supply information including information; Receives and stores the power supply information and load information transmitted from a plurality of remote control air conditioners installed at a remote location, and applies the power supply information and the load information to a built-in peak load control algorithm to include a peak load control command. A remote load control system for transmitting a control command; An internet network or a TCP / IP network for providing a mutual communication access function using an IP address system between the remote load control system and each of the remote control air conditioners; A mobile communication network for transmitting and receiving the remote control command and the load information between the remote load control system and each of the remote control air conditioners using RF communication; And at least one air conditioner group unit including at least one remote control air conditioner which receives the remote control command to change a set temperature or transmits the load information to the remote load control system via wireless packet communication. Provides a bidirectional control system of a remote control air conditioner using a mobile communication network.

According to another object of the present invention, a power supply automation system for calculating and managing power supply information including a power reserve ratio, a remote load control system for performing a remote control including a peak load power control using the power supply information and the remote load Consists of one or more air conditioner group units including a plurality of remote control air conditioners connected via a control system and the Internet or TCP / IP network and mobile communication network to periodically transmit load information including power consumption. A control method comprising: (a) periodically receiving the power supply information and the load information and storing them in respective databases; (b) periodically checking the power reserve ratio, and determining whether the power reserve ratio is smaller than a preset threshold; (c) determining whether to perform peak load control by loading an embedded peak load control algorithm when the power reserve ratio is smaller than the threshold; (d) transmitting a remote control command including a peak load control command to the air conditioner group unit to control each of the remote control air conditioners; And (e) calculating a peak load power reduction amount by receiving power usage during a predetermined period of time transmitted from each of the remote control air conditioners. do.

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

First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 is a schematic block diagram of a two-way remote control air conditioner control system 200 using a mobile communication network according to a preferred embodiment of the present invention.

The bidirectional remote control air conditioner control system 200 according to the preferred embodiment of the present invention includes a power supply automation system 210, a remote load control system 220, an internet network or a TCP / IP network 230, and a manganese connection device 240. , A short message service center 250, a mobile switching center 260, a wireless access network 270, and an air conditioning group unit 280.

As described above with reference to FIG. 1, the power supply automation system 210 is connected to various power generation facilities and performs a function of registering and managing a corresponding power generation facility, and a power supply such as a maximum generation capacity, a maximum supply capacity, a demand rate, and a power reserve rate. Generate, store and manage information.

The remote load control system 220 receives and stores power supply information such as a maximum generation capacity, a maximum supply capacity, a demand rate, and a power reserve rate from the power supply automation system 210, and the air conditioners transmitted from the air conditioner group unit 280 to be described later. Receives and stores load information such as the state information 281 to 283 and the power usage for a predetermined time.

The remote load control system 220 uses the power supply information received and stored from the power supply automation system 210 and the load information received and stored from the air conditioner group unit 280 to control peak load control, off control, batch temperature control, + N ℃ Performs functions such as temperature control, cycle control, and periodic signal transmission. Here, the remote load control system 220 switches to the center command mode in order to perform the above-described various functions, and includes the control command in the short message to transmit it to the air conditioner group unit 280. In addition, the remote load control system 220 is configured to provide packet communication for various life information such as energy saving induction information and news breaking news, stock market, weather forecast, and economic indicators provided from an Internet Information Provider (IP) (not shown). Through the air conditioner group unit 280 may be transmitted.

An internal configuration of the remote load control system 220 according to an embodiment of the present invention will be described in more detail with reference to FIG. 3.

The Internet network or the Transmission Control Protocol / Internet Protocol (TCP / IP) network 230 is an access network for two-way control over one-way control of a wireless call network used by a conventional remote control air conditioner control system, and each access terminal has a common address system. Is uniquely distinguished by Accordingly, when the remote load control system 220 transmits a control command to all the air conditioners 281 to 283 belonging to the air conditioner group unit 280 or a specific air conditioner, or each air conditioner 281 to 283 is a remote load control system ( In the case of a connection using the controller 220, a connection may be made using a corresponding IP address.

Inter-Working Function (IWF) 240 is a device used to connect a public switched telephone network (PSTN), a mobile communication network, a packet public data exchange network (PSPDN), a circuit switched public data communication network (CSPDN), and the like. to be. That is, the network connection device 240 performs a function of interconnecting the internet network or the TCP / IP network 230 and the mobile communication network between the remote load control system 220 and the air conditioner group unit 280.

The short message service center (SMSC) 250 transmits a short message received from the remote load control system 220 to a broadcast service. The Cell Broadcasting Service is a service that simultaneously transmits a short message to all terminals or a specific terminal group at the same time by using a paging channel. That is, unlike the general point-to-point service that continuously transmits the received short message while checking the state of the incoming target terminal until the reception of the stored short message is completed, the SMSC 250 transmits and terminates once at the same time. Short messages to be sent are not accumulated.

The mobile switching center (MSC) 260 includes a plurality of electronic exchanges to perform basic and additional service processing, processing of incoming and outgoing calls of a subscriber station, interworking with other networks, and the like. The mobile switching center 260 according to the embodiment of the present invention supports both IS-95 A / B / C systems, 3rd generation and 4th generation mobile communication networks in synchronous and asynchronous mobile communication networks.

A radio access network (RAN) 270 receives and processes a request for transmitting a short message from the SMSC 250, manages radio resources, and the like. The wireless access network 270 transmits the short message received through the SMSC 250 and the mobile switching center 260 to the air conditioner group unit 280 through the paging channel.

Meanwhile, the radio access network 270 includes a base station controller 272 and a base station transmitter 274 and supports both synchronous and asynchronous mobile communication systems. Here, in the case of a synchronous mobile communication system, the base station controller 272 will be a base station controller (BSC), and the base station transmitter 274 will be a base transceiver station (BTS). In the case of an asynchronous mobile communication system, the base station controller 272 is an RNC. (Radio Network Controller), the base station transmitter 274 will be a Radio Transceiver Subsystem (RTS). Of course, the wireless access network 270 according to an embodiment of the present invention is not limited to a CDMA mobile communication network, but a Global System for Mobile Communications (GSM) network and a fourth generation mobile communication system (All-IP communication network) currently being standardized. It may include the access network of.

The air conditioner group unit 280 may include one or more air conditioners 281 to 283, and although not shown in FIG. 2, a plurality of air conditioner group units may be connected to the wireless access network 270. Each air conditioner 281-283 included in the air conditioner group unit 280 is connected to the remote load control system 220 using the IP address information of the remote load control system 220 for its operation state and for a predetermined time. Send load information such as power usage. Hereinafter, a mode in which each air conditioner 281 to 283 connects to the remote load control system 220 and transmits load information will be referred to as a terminal connection mode.

Each air conditioner included in the air conditioner group unit 280 may be installed at different customers, or may be installed at the same customer. If the air conditioners are installed in different customers, respectively, the communication device will be provided inside or outside the air conditioner, and if a plurality of air conditioners are installed in the same customer, each air conditioner does not have a communication device, and a separate external remote It would be desirable to connect with the remote load control system 220 via a communication device.

The configuration of the air conditioner group unit 280 according to an embodiment of the present invention will be described in more detail with reference to FIGS. 4 and 5.

3 is a block diagram schematically showing an internal configuration of a remote load control system 220 according to an embodiment of the present invention.

Remote load control system 220 according to an embodiment of the present invention is the network connection card (310, 390), the input device unit 320, the main control unit 330, communication protocol storage unit 332, peak load control algorithm unit 340, the air conditioner control algorithm unit 350, the database management system unit 360, the power supply information database 370, the air conditioner database 372, the load information database 372, and the SMS module unit 380, etc. It is composed.

A first network access card (NIC) 310 is referred to as an NIC, and the second NIC 390 performs an internet network or TCP / IP. Perform a connection function with the network 230.

The input device 320 outputs command data so that an operator of the remote load control system 220 may perform general control such as off control, batch temperature control, + N ° C. control, and cycle control to the air conditioner group unit 280. As an input device, an input device such as a keyboard or a mouse may be used.

The main control unit 330 receives the power supply information transmitted from the power supply automation system 210 through the first NIC 310, stores the power supply information in the power supply information database 370, and stores the load information transmitted from the air conditioner group unit 280. It is received through the second NIC 390 and stored in the load information database 374. In addition, the main controller 330 controls the peak load power reduction amount by using the stored power supply information and the load information, and transmits the peak load control command to the air conditioner group unit 280 by using a short message when the peak load control is required. do. Here, the main controller 330 may notify the users of the peak load control by transmitting the peak load notice information to the air conditioner group unit 280 before transmitting the peak load control command.

The communication protocol storage unit 332 stores a communication protocol used in the remote control air conditioner control system 200 according to the embodiment of the present invention. Here, the protocol used for the control command transmitted from the remote load control system 220 to the air conditioner group unit 280 includes the communication protocol proposed in Patent Application No. 2001-4152. That is, in the remote load control system 220 according to the present invention, the off control, the batch temperature control, the + N ℃ control, the cycle control, the normal return control, provided in the remote control air conditioner control system 100 using the conventional wireless call network, When performing functions such as periodic signal transmission, it is to use the communication protocol proposed in Patent Application No. 2001-4152. However, for the peak load control function and the load information transmission function from the air conditioner group unit 280 to the remote load control system 220 which are not proposed in Patent Application No. 2001-4152, a separate communication protocol is defined and used.

The peak load control algorithm unit 340 is provided with a predetermined peak load control algorithm, and the peak load control algorithm is loaded by the control of the main controller 330. The loaded peak load control algorithm performs a function of determining whether peak load control is necessary by using power reserve ratio information stored in the power supply information database 370 and power usage information of all air conditioners stored in the load information database 374. . When peak load control is required by the peak load control algorithm unit 340, the main controller 330 automatically transmits a peak load control command to the air conditioner group unit 280 using a short message.

A predetermined air conditioner control algorithm is installed in the air conditioner control algorithm unit 350, and the air conditioner control algorithm is loaded by the control of the main controller 330. The loaded air conditioner control algorithm analyzes the feed information and load information to process functions such as off control, batch temperature control, + N ℃ control, periodic control, and periodic signal transmission.

The peak load control algorithm and the air conditioner control algorithm installed in the peak load control algorithm unit 340 and the air conditioner control algorithm unit 350 are coded in a predetermined program language, and the algorithm is input using the input device unit 320. Various threshold values set in itself or in an algorithm may be changed and stored.

The database management system unit 360 is a software system configured to configure a database and apply the configured database. The database management system unit 360 performs a function of allowing a user or an application program to easily use the database.

The power supply information database 370 stores the power supply information received from the power supply automation system 210, and the air conditioner database 372 identifies each cell unit of a wireless base station or a base station in which a plurality of air conditioners are installed. The code ID, capacity information, device information, and the like are recorded and stored in a plurality of classified air conditioners. In addition, the load information database 374 stores the load information of the plurality of air conditioners received from the air conditioner group unit 280 by date, time, and the like.

The SMS module unit 380 receives a command for transmitting a short message from the main control unit 330, generates a short message including a control command requested from the main control unit 330, and then generates an internet network through the second NIC 390. Or it transmits to the TCP / IP network 230.

4 is a block diagram schematically illustrating an internal configuration of a remote control air conditioner 400 provided with a reception device according to an exemplary embodiment of the present invention.

According to an embodiment of the present invention, the remote control air conditioner 400 having a reception device includes an RF antenna 411, an RF signal processing unit 412, a communication modem unit 41, a receiver control unit 416, and a display device 417. And an air conditioner 420 including a reception device unit 410 including a temperature control command unit 418, an air conditioner control unit 421, a power usage storage unit 422, and a temperature control unit 423. . In the remote control air conditioner 400 illustrated in FIG. 4, the receiving device unit 410 may be configured to be built in or external to the air conditioner 420.

The RF antenna 411 receives a text message transmitted from the remote load control system 220 operating in the center command mode through the Internet network or the TCP / IP network 230 and the mobile communication network. In addition, the RF antenna 411 loads the load information to be transmitted from the remote control air conditioner 400 operating in the terminal connection mode to the mobile communication network.

In case of transmitting load information to mobile communication network by using terminal access mode, if more than 25 remote control air conditioners are connected to one wireless base station at the same time and occupy Reverse Traffic Channel, call processing function of wireless base station There is a risk of paralysis at this moment. Therefore, the remote control air conditioner in the jurisdiction of each wireless base station in the time zone where the traffic of the mobile communication network is low (e.g., using dawn time, excluding mealtime, excluding commuting time, etc.) twice a day when remote control does not occur. Causes the load information to be sent at different times. In this case, in order to determine the transmission time of load information in each remote control air conditioner, a method of determining the transmission time within a predetermined time period by multiplying a unique number (Base_ID, PN Offset value, etc.) for each wireless base station with a random value is an example. May be used.

The RF signal processing unit 412 demodulates and modulates an RF signal received through the RF antenna 411 or modulates data to be transmitted to the mobile communication network to an RF signal.

The communication modem unit 413 is a modem device unit for performing wireless communication with the remote load control system 220 and includes a CDMA modem 414 and a GSM modem 415. The CDMA modem 414 and the GSM modem 415 respectively support communication protocols used in a Code Division Multiple Access (CDMA) communication network and a Time Division Multiple Access (TDMA) communication network to provide functions such as voice call, data communication, and short message service. To perform. The CDMA modem 414 may use a chipset of Qualcomm's Mobile Station Modem (MSM) family that is currently widely used.

The receiver controller 416 is usually composed of a microprocessor to analyze a control command received from the remote load control system 220 to raise the temperature set in the remote control air conditioner 400 by a predetermined range or to control the remote control air conditioner ( The command for turning off 400 is transmitted to the temperature control command unit 418. Here, the off of the remote control air conditioner 400 means the operation stop of the compressor built in the remote control air conditioner 400.

The display device 417 is a voice synthesis circuit, an amplifier, and a speaker in which a guide sound such as "in remote control" is recorded together with or independently of a light emitting diode (LED) or a liquid crystal display (LCD). ) And the like to inform the user that the cooling temperature of the remote control air conditioner 400 is forcibly set by the power supply and demand plan.

The temperature control command unit 418 generates a predetermined signal according to the air conditioner control command received from the receiver control unit 416 and transmits the predetermined signal to the air conditioner control unit 421. For example, when receiving the OFF command from the receiver control unit 416, when receiving the OFF signal, the N ℃ falling command generates a temperature falling signal and transmits to the air conditioner control unit 421. For example, the temperature control command unit 418 is configured to be similar to pressing a temperature change button on a keypad formed outside of a general air conditioner. When the temperature is lowered by 3 ° C., three temperature drop virtual signals are generated to generate an air conditioner control unit ( 421).

The air conditioner controller 421 performs a function of controlling the temperature set in the remote control air conditioner 400 according to the received signal received from the temperature control command unit 418. In addition, the air conditioner controller 421 reads information such as power usage stored in the power usage storage unit 422 to be described later, whether the remote control air conditioner 400 is normally operated, and changed power usage before and after the remote control, thereby receiving the receiver controller 416. ) Function.

In the power usage storage unit 422, the power usage used by the remote control air conditioner 400 is stored in predetermined time units.

The temperature controller 423 lowers the temperature set in the remote control air conditioner 400 according to the temperature control command transmitted from the air conditioner controller 421.

The load power amount measurement unit 424 measures a load power amount used by the remote control air conditioner 400 at a predetermined time period, and periodically transmits the measured load power amount to the air conditioner control unit 421.

5 is a block diagram schematically showing the configuration of the multiple air conditioner remote control system 500 in one premises according to an embodiment of the present invention.

The multiple air conditioner remote control system 500 in one premises is a system in which a plurality of remote control air conditioners are connected to one customer (home or business, etc.). Therefore, the method of mounting the receiver unit 410 as described in FIG. 4 for each remote control air conditioner has a disadvantage in that it requires a lot of cost. Therefore, as shown in FIG. 5, one remote control terminal unit 510 is separately installed, and the plurality of remote control air conditioners 531, 533, 535, and 537 are connected through a connection device such as a hub 520. It would be desirable to be configured to connect to the remote control terminal 510.

Since the remote control terminal unit 510 is configured similarly to that described with reference to FIG. 4, a detailed description thereof will be omitted. The remote control terminal unit 510 receives a short message transmitted from the remote load control system 220 through the RF antenna 511, demodulates and analyzes the specific remote control air conditioner or all remote control air conditioners connected through the hub 520. It performs the function of controlling the (531, 533, 535, 537).

In addition, the remote control terminal unit 510 collects load information transmitted from each of the remote control air conditioners 531, 533, 535, and 537, and loads the remote load control system 220 through RF communication in the form of packet data. To send. That is, the remote control terminal unit 510 holds IP address information assigned to the remote load control system 220. When the remote control terminal unit 510 operates in the terminal access mode, the remote control terminal unit 510 uses the IP address information retained in the remote load control system 220. The load information collected by connection is transmitted.

Each remote control air conditioner 531, 533, 535, 537 connected to the hub 520 has a communication module unit 532, 534, 536, 538 for communication with the remote control terminal unit 510. Since the multiple air conditioner remote control system 500 in FIG. 5 is a wired communication method through the hub 520, the communication module units 532, 534, 536, and 538 are RS (Recommended Standard) -232C and RS-485. It will be possible to have a wired modem that supports serial communication.

On the other hand, although the multiple air conditioner remote control system 500 in the first premises shown in Figure 5 is built using wired communication, the technical idea according to the present invention is not limited to this, RF communication, Bluetooth, infrared communication, IEEE An 802.11 series wireless LAN may be applied. In order to configure a plurality of air conditioner remote control systems in one premises using a wireless LAN, a wireless access point (AP) must be installed, and each communication module unit 532, 534, 536, 538 has a wireless LAN card. (Card) should be installed.

On the other hand, in Figures 2 to 5 according to an embodiment of the present invention has been described only for the control system of the remote control air conditioner, the technical idea of the present invention is not limited to this, such as refrigerators, air conditioners, etc., which consumes a lot of power in the summer. Applicable to the device as well. In addition, it may be applied to the construction of a comprehensive power automation network in the future in connection with a remote metering network such as an integrated electricity meter.

6 is a flowchart illustrating a remote control process of a remote control air conditioner in the bidirectional remote control air conditioner control system 200 according to an exemplary embodiment of the present invention.

The remote load control system 220 periodically receives the power supply information and the load information from the power supply automation system 210 and the air conditioner group unit 280, respectively, and stores them in the power supply information database 370 and the load information database 374 ( S600). The remote load control system 220 periodically checks the power reserve ratio using the stored power feeding information (S602).

The remote load control system 220 periodically checks whether or not the power reserve ratio checked in step S602 exceeds a predetermined critical value (S604). When the remote load control system 220 determines that the power reserve ratio is smaller than the threshold as a result of the determination in step S604, the remote load control system 220 loads the built-in peak load control algorithm (S606). The loaded peak load control algorithm determines whether peak load control is necessary using the power supply information and the load information (S608).

When the remote load control system 220 determines that the peak load control is necessary as a result of the determination of step S608, the remote load control system 220 generates a short message including the peak load control command and transmits the short message to the air conditioner group unit 280 (S610). The SMSC 250 receiving the short message transmitted from the remote load control system 220 transmits the received short message using a broadcast type service. In this case, when the broadcast type service is used, since the short message is transmitted to the plurality of air conditioners 281 to 283 at the same time only once, the SMSC 250 may not receive the short message from the one or more air conditioners 281 to 283. Accordingly, the remote load control system 220 checks the state information and the power usage information for a predetermined time period that the air conditioners 281 to 283 periodically transmit through the terminal access mode after the remote control is performed, and then the respective air conditioners 281. It also performs a function of checking whether or not a short message is received.

Each air conditioner 281 to 283 included in the air conditioner group unit 280 receives a short message received through the Internet network or the TCP / IP network 230 and a mobile communication network, and includes a control command included in the received short message. Perform temperature control according to Here, the temperature control means to raise the set temperature of the air conditioners 281 to 283 collectively to the required value or to increase the temperature to N ° C. or to turn off the operation of the compressor.

The air conditioners 281 to 283 which change the set temperature according to the control command of the remote load control system 220 measure and store the amount of power consumed every predetermined time unit (S614). The air conditioners 281 to 283 remotely controlled by the remote load control system 220 are periodically connected using the IP address information allocated to the remote load control system 220 (S616).

Each of the air conditioners 281 to 283 connected to the remote load control system 220 transmits power consumption of a predetermined time unit, which is measured and stored, to the remote load control system 220 using packet communication (S618). Therefore, the remote load control system 220 may find the amount of power reduction by the peak load control using the power usage information transmitted from the air conditioner group unit 280.

The above description is merely illustrative of the present invention, and those skilled in the art to which the present invention pertains may various modifications without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed herein are not intended to limit the present invention but to describe the present invention, and the spirit and scope of the present invention are not limited by these embodiments. It is intended that the scope of the invention be interpreted by the following claims, and that all descriptions within the scope equivalent thereto shall be construed as being included in the scope of the present invention.

As described above, although the conventional one-way remote control air conditioner control system could not accurately grasp the power consumption used by the remote air conditioner, it was necessary to visit the customer, but according to the present invention, status information transmitted from a plurality of air conditioners using two-way communication and Using the power usage information, it is possible to accurately predict the peak load power reduction amount.

In addition, CDMA, GSM, and the like transmits a control command using a short message provided by a mobile communication method, and furthermore, transmits a short message using a broadcast type service, thereby transmitting a remote control command by a base station or a cell unit. As described above, it is possible to promptly transmit and check whether or not the control command is properly transmitted by the periodic terminal access mode of the air conditioner.

In addition, it can be applied to the establishment of a comprehensive electric power automation network by connecting with facilities such as refrigerators, air conditioners, and remote meter reading networks as well as air conditioners, and when connected to businesses such as restaurants, restaurants, coffee shops, and convenience stores, Providing, remote access security management, there is an effect that can be used in addition to the shop advertising information board.

1 is a block diagram schematically showing a unidirectional remote control air conditioner control system using a wireless call network currently in use;

2 is a block diagram schematically illustrating a two-way remote control air conditioner control system using a mobile communication network according to a preferred embodiment of the present invention;

3 is a block diagram briefly showing an internal configuration of a remote load control system according to an embodiment of the present invention;

4 is a block diagram schematically illustrating an internal configuration of a remote control air conditioner equipped with a reception device according to an embodiment of the present invention;

5 is a block diagram schematically showing the configuration of a multiple air conditioner remote control system in a premises according to an embodiment of the present invention;

6 is a flowchart illustrating a remote control process of a remote control air conditioner in the bidirectional remote control air conditioner control system according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110, 210: power supply automation system 120, 220: remote load control system

130: wireless call network 140, 280: air conditioning group

230: Internet network, TCP / IP network 240: Network connection device

250 SMSC 260 mobile switching center

270: wireless access network 310, 390: NIC

320: input device unit 330: main control unit

332: communication protocol storage unit 340: peak load control algorithm unit

350: air conditioner control algorithm unit 370: power supply information DB

372: air conditioner DB 374: load information DB

380: SMS module 400: remote control air conditioner

410: receiver unit 412: RF signal processing unit

413: communication modem unit 416: receiver control unit

417: display device 418: temperature control command unit

420: air conditioning unit 421: air conditioning control unit

422: power usage storage unit 423: temperature control unit

500: Multiple air conditioner remote control system in 1 ward

Claims (21)

A system for bidirectionally controlling a remote control air conditioner using a mobile communication network, A power supply automation system (EMS), which is connected to a plurality of power generation facilities, manages each of the power generation facilities, and calculates, stores, and transmits power supply information including maximum generation capacity, maximum supply capacity, demand rate, and power reserve ratio information. ); Receives and stores the power supply information and load information transmitted from a plurality of remote control air conditioners installed at a remote location, and includes the power supply information and the load information including a peak load control command using a built-in peak load control algorithm. A remote load control system for transmitting a control command; An internet network or a TCP / IP (Transmission Control Protocol / Internet Protocol) network for providing a mutual communication access function using an IP address system between the remote load control system and each of the remote control air conditioners; A mobile communication network for transmitting and receiving the remote control command and the load information between the remote load control system and each of the remote control air conditioners using radio frequency (RF) communication; And At least one air conditioner group unit including at least one remote control air conditioner which receives the remote control command to change a set temperature or transmits the load information to the remote load control system via wireless packet communication Two-way control system of a remote control air conditioner using a mobile communication network comprising a. The method of claim 1, And the load information includes information on whether the remote control air conditioner normally operates and power usage information for a predetermined time. The method of claim 1, The remote load control system is assigned a unique IP address, and each of the remote control air conditioners is connected to or connected to the remote load control system using the IP address. Two way control system of control air conditioner. The remote load control system of claim 1, wherein A network access card (NIC: network interface card) for performing a communication connection function with the power supply automation system and the Internet network or TCP / IP network; A power supply information database and a load information database for storing the power supply information and the load information, respectively; A peak load control algorithm unit configured to store a peak load control algorithm for performing peak load control using the power supply information and the load information; A communication protocol storage for supporting communication with each of the remote control air conditioners using synchronous CDMA communication or asynchronous CDMA; Control to store the power supply information and the load information in the power supply information database and the load information database, respectively, and generate and transmit the remote control command including the peak load control by operation of the peak load control algorithm. A main control unit controlling the overall load control system; And SMS (Short Message Service) module unit for receiving the remote control command, creating a short message containing the received remote control command and sending it over the Internet network or TCP / IP network using the network access card. Two-way control system of a remote control air conditioner using a mobile communication network comprising a. The method of claim 4, wherein The remote load control system includes an air conditioner database in which air conditioner information including identification information, capacity information, and device information of a plurality of remote control air conditioners installed in a remote area is grouped and stored. Two-way control system. The method according to claim 4 or 5, The air conditioner information is classified and stored in a unit of a wireless base station or a cell of the base station for the area in which the remote control air conditioner is installed, and the bidirectional control system of the remote control air conditioner using a mobile communication network. . The method of claim 1, A mobile terminal comprising an inter-working function (IWF), which is an interface device for interconnecting two networks, between the internet network or the TCP / IP network and the mobile switching center of the mobile communication network. Bi-directional control system of remote control air conditioner using communication network. The method according to claim 1 or 7, A Short Message Service Center (SMSC) is installed between the network connection device and the mobile switching center to transmit a short message including the remote control command to a Cell Broadcasting Service. Bi-directional control system of a remote control air conditioner using a mobile communication network. The method of claim 1, The mobile communication network is a two-way control system of a remote control air conditioner using a mobile communication network, characterized in that at least one of a TDMA communication network including a synchronous CDMA communication network, an asynchronous CDMA communication network and a GSM network. The air conditioner of claim 1, wherein the remote control air conditioner is Receive and demodulate a first RF signal embedded in or external to the remote control air conditioner to include the remote control command, extract and transmit the remote control command, and generate a modulated second RF signal including the load information. A reception device unit for transmitting to the remote load control system; And The air conditioner unit adjusts the set temperature of the remote control air conditioner, stops the operation of the built-in compressor, or measures and stores the power consumption before and after the remote control according to the remote control command received from the receiving device unit. Two-way control system of a remote control air conditioner using a mobile communication network comprising a. The method of claim 10, wherein the receiving device unit An RF antenna for receiving the first RF signal and transmitting the second RF signal; An RF signal processor for demodulating the received first RF signal and modulating the second RF signal to be transmitted; A communication modem unit for processing the first RF signal or the second RF signal by applying a communication protocol used in a CDMA communication network and a TDMA communication network; A receiver controller which controls to generate and transmit the second RF signal by transmitting the received remote control command to the air conditioner or collecting the load information; And Temperature control command unit for generating and transmitting a temperature control signal according to the remote control command under the control of the receiver controller Two-way control system of a remote control air conditioner using a mobile communication network comprising a. The method of claim 11, The communication modem unit may include at least one of a CDMA modem and a Global System for Mobile Communications (GSM) modem including a mobile station modem (MSM) series chipset. Two-way control system. The air conditioner group unit according to claim 1 or 11, wherein: A remote control terminal unit having a configuration and a function similar to that of the receiving device unit; And Connect or connect to the remote control terminal through wired communication, Bluetooth communication, infrared communication, RF communication, and IEEE 802.11 series wireless LAN supporting RS (Recommended Standard) -232C and RS-485. One or more remote controlled air conditioners with communication modules Two-way control system of a remote control air conditioner using a mobile communication network, characterized in that comprising a. The method of claim 1, The bidirectional control system of the remote control air conditioner using the mobile communication network is applied to a refrigerator and an air conditioner, and the bidirectional control system of the remote control air conditioner using a mobile communication network, characterized in that associated with the remote meter reading network. A power supply automation system for calculating and managing power supply information including a power reserve ratio, a remote load control system for performing remote control including peak load power control using the power supply information, and the remote load control system and the Internet network or TCP / A method for bidirectionally controlling a remote control air conditioner, comprising one or more air conditioner group units including a plurality of remote control air conditioners connected via an IP network and a mobile communication network to periodically transmit load information including power usage. (a) periodically receiving the power supply information and the load information and storing them in respective databases; (b) periodically checking the power reserve ratio, and determining whether the power reserve ratio is smaller than a preset threshold; (c) if the power reserve ratio is smaller than the threshold, determining whether to perform peak load control by loading an embedded peak load control algorithm; (d) transmitting a remote control command including a peak load control command to the air conditioner group unit to control each of the remote control air conditioners; And (e) calculating a peak load power reduction amount by receiving power usage during a period of time transmitted from each of the remote control air conditioners; Bidirectional control method of a remote control air conditioner using a mobile communication network comprising a. The process of claim 15, wherein in step (d) The remote control command is a bi-directional control method of a remote control air conditioner using a mobile communication network, characterized in that transmitted in a short message. The method of claim 16, The short message is a two-way control method of a remote control air conditioner using a mobile communication network, which is simultaneously transmitted at a time by a unit of a wireless base station or a cell in a region where each air conditioner group unit is located as a cell broadcasting service. The process of claim 15, wherein in step (d) The remote control command includes at least one command of the peak load control command, off control command, batch temperature control command, + N ℃ control command, cycle control command, normal return command and the periodic signal Bidirectional control method of the remote control air conditioner using. The process of claim 15, wherein in step (e) Each remote control air conditioner switches to a terminal access mode, accesses the remote load control system using an IP (Internet Protocol) address assigned to the remote load control system, and transmits the power usage in packet data format. A bidirectional control method of a remote control air conditioner using a mobile communication network. The method of claim 15, The remote load control system determines whether or not each remote control air conditioner, which is the target of transmission of the remote control command, has normally received the remote control command using the power usage received in step (e). A bidirectional control method of a remote control air conditioner using a mobile communication network characterized in that it determines whether the normal operation according to the control command. The method of claim 15, The remote load control system transmits various load information including peak load control notice, power saving induction information and breaking news, stock market, weather forecast and economic indicators to each of the remote control air conditioners using packet communication. Bidirectional control method of a remote control air conditioner using a mobile communication network.