KR100810509B1 - Air conditioner system and control method thereof - Google Patents

Abstract

An air conditioner system and a method for controlling the same are provided to control peak demand while minimizing inconvenience of users by controlling indoor units and an outdoor unit in accordance with priority set based on ID information. ID transmitters(110) transmit ID information of users. Each indoor unit(120) includes an ID receiver(121) receiving the ID information. A power detector(130) detects total power which is in the course of use. In case the detected total power exceeds a reference value, a control unit(140) controls each indoor unit to receive ID information in a room and sets up priority of each indoor unit in accordance with the received ID information. The control unit controls the indoor units to stop operation of the indoor units in accordance with the priority.

Description

Air Conditioner System and Control Method {AIR CONDITIONER SYSTEM AND CONTROL METHOD THEREOF}

1 is a block diagram showing the configuration of a conventional air conditioner system,

2 is a block diagram showing the configuration of an air conditioner system according to an embodiment of the present invention;

3 is a flowchart illustrating an operation of an air conditioner system according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

100: air conditioner system 110: ID transmitter

120: indoor unit 121: ID receiver

130: power amount detection unit 140: control unit

150: outdoor unit

The present invention relates to an air conditioner system and a control method thereof. More specifically, the present invention relates to an air conditioner system and a control method thereof capable of controlling the maximum demand power while minimizing user inconvenience.

The air conditioner includes a plurality of indoor units disposed in each chamber and an outdoor unit which is shared with each indoor unit to control the refrigerant flow. The operation of air conditioners is one of the main reasons for the increased power use. In order to reduce the electricity bill, there is a need for a method of distributing the start or operation of the load so as to reduce the maximum power and continuously managing it to prevent unnecessary waste. Maximum demand power is an average of 15 minutes of used power. The machine that keeps counting this is the peak demand meter, and today's electronic meters have this feature by default.

The configuration of the air conditioner system for maximum demand power control is as shown in FIG. First, an air conditioner system including an indoor unit 11 disposed in each room and an outdoor unit 12 that is shared with the plurality of indoor units 11 and controls a flow of refrigerant distributed to each indoor unit 11 is constructed. Is installed on. In addition, since the air conditioner system is distributed and located in the building, it is possible to check the state of each outdoor unit 12 by being connected to the plurality of outdoor units 12 and a network, and to input a control command to each outdoor unit 12. Central controller 14 is provided to enable integrated control. The repeater 13 is a device that connects the indoor unit 11 and the central controller 14. The maximum demand power meter 15 measures the amount of power in use and transmits an alarm level to the central controller 14 when the maximum demand power is exceeded. The central controller 14 receives the information from the maximum demand power meter 15 and controls the indoor unit 11 and the outdoor unit 12.

In case of the prior art, the indoor units are randomly arranged and controlled by an algorithm designed using the alarm level received from the maximum demand power meter. However, since there is no clear standard for indoor unit arrangement, it does not provide an accurate method for the purpose of lowering the amount of power and minimizing user inconvenience. There is a disadvantage that does not consider the user's position mainly by focusing on the purpose of lowering the amount of power.

The present invention is to solve the above problems, by providing an ID according to the user, by setting the priority according to the user, the air conditioner system and control method that can control the maximum demand power while minimizing user inconvenience It aims to provide.

In order to achieve the above object, the present invention provides an air conditioner system, comprising: an ID transmitter for transmitting ID information according to a user; Each indoor unit including an ID receiving unit for receiving ID information; A power amount detector for detecting a total amount of power in use; When the detected total power exceeds the reference value, each indoor unit controls to receive ID information indoors, and sets the priority of each indoor unit according to the received ID information to stop the operation of each indoor unit according to the priority. It provides an air conditioner system comprising a control unit for controlling the indoor unit.

The ID information may include at least one of information on a user's job title and health status, and the controller may set the priority of the indoor unit according to the area where the ID information and the indoor unit are installed.

The control unit controls each indoor unit to receive ID information indoors after a predetermined time elapses after the operation of the indoor unit stops, and the priority of each indoor unit is determined according to the received ID information. By setting the priority, the indoor unit can be controlled to operate the stationary indoor unit according to the priority.

The apparatus may further include an outdoor unit that provides air conditioning capability to each indoor unit, and the controller may control operations of each indoor unit and the outdoor unit according to priority.

On the other hand, the present invention, the control method of the air conditioner system including a plurality of indoor units, the step of setting the ID information according to the user; Detecting a total amount of power in use; When the detected total power exceeds a reference value, each indoor unit receiving ID information indoors; Setting priorities of the indoor units according to the received ID information; The above object can also be achieved by the control method of the air conditioner system, including the step of stopping the operation of the indoor unit according to the priority.

In addition, after stopping the operation of the indoor unit after a predetermined time, and detecting the total amount of power in use does not exceed the reference value, may further comprise the step of operating the stopped indoor unit according to the priority.

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

2 is a block diagram showing the configuration of an air conditioner system according to an embodiment of the present invention. An air conditioner system according to an embodiment of the present invention detects the total amount of power in use and controls the operation of each air conditioner for maximum power demand control.

As shown in FIG. 2, the air conditioner system 100 includes an ID transmitter 110, an indoor unit 120, a power amount detector 130, and a controller 140. And it may further include an outdoor unit 150.

The ID transmitter 110 transmits ID information according to the user. Every user is issued a unique ID for personal identification, and the ID transmitter 110 transmits ID information issued to each user. For example, the ID transmitter 110 may be implemented as a card with an RFID tag or a contactless IC card. RFID is a technology that attaches an electronic tag to an object so that the object can recognize the surrounding situation and exchange / process information with existing IT systems in real time. RFID uses the principle that the magnetic field generated by generating a strong high frequency is driven by the current generated by passing through the tag's antenna coil. The RFID tag includes an active type that requires a power source depending on the presence or absence of a power supply, and a passive type that is operated by an electromagnetic field of the reader without supplying power directly from inside or outside.

The ID information includes at least one of information on job title and health status along with the user's unique ID. For example, the ID information includes information on positions such as the president, executive, and employee, and health conditions such as diabetes, high blood pressure, and cold. In addition, the ID information can be changed and updated.

The indoor unit 120 includes an ID receiver 121 for receiving ID information. The indoor unit 120 is disposed in each room to receive cold or warm air supplied from the outdoor unit 150. And the indoor unit 120 has an ID receiver 121 is installed to collect ID information in each room.

The ID receiver 121 receives the ID information transmitted from the ID transmitter 110. For example, when the ID receiver 121 is an RFID system, the ID receiver 121 may be implemented as an RFID reader. Depending on the type of RFID system, the transmit and receive radius varies from a few cm to several tens of meters. A suitable RFID system may be operated according to the width of the space where the indoor unit 120 is installed. The ID transmitter 121 may be installed in one indoor unit 120 according to the transmission and reception radius, or the ID receiver 121 may be installed in each of the indoor units 120.

The power amount detector 130 detects the total amount of power being used. The total amount of power is power used by the air conditioner system 100. It can also detect power in use by all electrical devices in a building for maximum demand power control. Maximum demand power is the maximum demand power generated in a given period and is calculated at design time as maximum demand power = capacity factor. Maximum demand power can be detected in 15 minute increments. For example, a meter installed in a power receiving facility is remotely read at KEPCO, and is configured to charge an electric charge based on an average power consumption of three months and 15 minutes in summer. At this time, the maximum demand power controller is installed so as not to exceed the management power amount, and it is configured to control the maximum demand power by synchronizing the summer electric power and the synchronization signal every 15 minutes.

If the detected total power exceeds the reference value, the controller 140 controls each indoor unit 120 to receive ID information indoors, sets priority of each indoor unit 120 according to the received ID information, and priorities. The indoor unit 120 is controlled to stop the operation of each indoor unit 120 according to the ranking. The controller 140 sets the priority according to the ID information. The controller 140 may give a score according to the ID information and the type of the room in which the indoor unit 120 is installed and the number of people in the room, and set the priority by adding the scores. The score given to each piece of information is preset by the administrator. For example, three points can be given if the position is a president, two points for an executive level, and one point for an employee. And if the state of health is critical, 5 points, a cold 2 points, an upset stomach can give one point. If the indoor unit is installed in the president's room, it can be given 5 points, 3 for the nursing room, and 1 for the conference room. If the number of people in the room is 10 or more, 3 points, 2 to 5 to 10 people, 1 to 5 people can be given.

The controller 140 may set the priority of the indoor unit 120 according to the ID information and the area where the indoor unit 120 is installed. The control unit 140 may determine the number of people in the room where the indoor unit 120 is installed and the rank and health status according to each ID based on the received ID information, and the type of the room where the indoor unit 120 is installed may be each indoor unit 120. It may be preset according to. For example, two indoor units are installed in a conference room, and each indoor unit is provided with an RFID reader. There are four users in the meeting room, each with an RFID card. According to the command of the controller 140, the RFID reader detects an RFID card present in the conference room and receives four ID information. The controller 140 controls all indoor units 120 in operation to receive such information when the detected total power exceeds a reference value. The controller 140 collects the information and adds the scores according to the information to give the score to the indoor unit 120 in the conference room. And all the indoor unit 120 in operation is given a score in the above manner and set the priority according to the score.

The controller 140 controls the indoor unit 120 to stop the operation from the indoor unit 120 having a low total score by summing scores according to each information. For example, if the total score of the indoor unit 120 in the conference room 1 is 10 and the total score of the indoor unit 120 in the conference room 2 is 20, the controller 140 stops the operation of the indoor unit 120 in the conference room 1. To do that.

The controller 140 may include a PC and a network device for data transmission and reception. For example, the controller 140 may include a repeater, a central controller, and a DMS. The repeater is a data relay that exists between the central controller and the outdoor unit. The central controller may be implemented as a PC as a central controller of the air conditioner system existing between the DMS and the repeater. The DMS is a data relay device connected to the Internet or a host controller. Each component can form a network by RS-485.

The controller 140 stops the operation of the indoor unit 120 and after a predetermined time passes, when the total amount of detected power does not exceed the reference value, the indoor unit 120 controls the indoor unit 120 to receive ID information indoors. Priority of each indoor unit 120 may be set according to ID information, and the indoor unit 120 may be controlled so that the indoor unit 120 stopped according to the priority. For example, after 30 minutes to 1 hour, the controller 140 may control the indoor unit 120 forcibly stopped to operate for maximum power demand control.

The outdoor unit 150 provides air conditioning capability to each indoor unit 120. The controller 140 controls the operation of each indoor unit 120 and the outdoor unit 150 according to the priority. The outdoor unit 150 is shared with the plurality of indoor units 120 to control the refrigerant flow. The controller 140 may control the operation of the indoor unit 120 and the outdoor unit 150 to adjust demand power.

Hereinafter, a control method of an air conditioner system according to an embodiment of the present invention will be described with reference to FIG. 3.

First, ID information is set according to the user. The manager issues an RFID card to all users and inputs information such as job title and health status (S10). RFID card with RFID tag can be used. The input ID information can be changed and updated. The air conditioner system 100 detects the total amount of power periodically used by the amount of power detector 130 during daily operation. When the maximum demand power is exceeded, an alarm signal is generated (S20). Each indoor unit 120 receives ID information indoors. Through the RFID reader installed in the indoor unit 120 to grasp the information existing in each room (S30). For example, two indoor units 120 are installed in a conference room, and each of the indoor units 120 is provided with an RFID reader. There are four users in the meeting room, each with an RFID card. According to the command of the controller 140, the RFID reader detects an RFID card present in the conference room and receives four ID information.

The controller 140 sets priorities of the indoor units 120 according to the received ID information. The priority is calculated based on the information on the person recognized through the RFID reader indoors (S40). The controller 140 may determine the number of persons in the room where the indoor unit 120 is installed and the rank and health status according to each ID through the received ID information. And score according to the above information. For example, three points can be given if the position is a president, two points for an executive level, and one point for an employee. And if the state of health is critical, 5 points, a cold 2 points, an upset stomach can give one point. If the indoor unit is installed in the president's room, it can be given 5 points, 3 for the nursing room, and 1 for the conference room. In the case of 10 or more people, 3 points can be given, 5-10 people can receive 2 points, and 1-5 people can receive 1 point.

The controller 140 collects such information and adds the scores according to the information to give the indoor unit 120 a score. And all the indoor unit 120 in operation is given a score in the above manner and set the priority according to the score. And the operation of the indoor unit 120 in use according to the priority is stopped (S50). For example, if the total score of the indoor unit 120 in the conference room 1 is 10 and the total score of the indoor unit 120 in the conference room 2 is 20, the controller 140 stops the operation of the indoor unit 120 in the conference room 1. To do that. After the predetermined time passes, the indoor unit 120 may be operated again.

As mentioned above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto and may be variously implemented within the scope of the claims.

As described above, according to the present invention, there is provided an air conditioner system and a control method thereof capable of controlling the maximum demand power while minimizing user inconvenience.

Claims (6)

In an air conditioner system, An ID transmitter for transmitting ID information according to a user; Each indoor unit including an ID receiving unit for receiving the ID information; A power amount detector for detecting a total amount of power in use; When the detected total power exceeds the reference value, the indoor unit controls the indoor unit to receive the ID information, sets the priority of each indoor unit according to the received ID information, and sets the respective units according to the priority. And a control unit for controlling the indoor unit to stop the operation of the indoor unit. The method of claim 1, The ID information includes at least one of information on the rank and health status of the user, The control unit, the air conditioner system for setting the priority of the indoor unit according to the area in which the ID information and the indoor unit is installed. The method according to claim 1 or 2, The controller may be configured to control each indoor unit to receive the ID information indoors when the total amount of detected power does not exceed a reference value after a predetermined time elapses from the operation of the indoor unit, and the received ID information. Setting the priority of each indoor unit according to the air conditioner, and controlling the indoor unit to operate the stationary indoor unit according to the priority. The method of claim 3, Further comprising an outdoor unit for providing air conditioning capabilities to each indoor unit, The control unit, the air conditioner system, characterized in that for controlling the operation of each indoor unit and outdoor unit in accordance with the priority. In the control method of the air conditioner system including a plurality of indoor units, Setting ID information according to a user; Detecting a total amount of power in use; When the detected total power exceeds a reference value, each indoor unit receiving the ID information indoors; Setting priorities of the indoor units according to the received ID information; Controlling the operation of the indoor unit according to the priority. The method of claim 5, After stopping the operation of the indoor unit after a predetermined time, if the total amount of power being used does not exceed the reference value, further comprising the step of operating the stopped indoor unit according to the priority Control method of existing system.

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