KR100765165B1 - The control method of air conditioner and air conditioner using the method - Google Patents

Abstract

A control method of an air conditioner and the air conditioner using the method are provided to create comfortable indoor environment by performing pre-cooling or pre-heating for a specific space where the user wants to be moved in and to minimize unnecessary power consumption by allowing each indoor unit to be automatically turned off after a predetermined period of time. A control method of an air conditioner including at least one outdoor unit and a plurality of indoor units connected to the outdoor unit, the control method comprises the steps of discriminating if an operation pattern for setting operations of the indoor units is inputted(S5), discriminating if the inputted operation pattern is a shifting mode(S20), and operating the indoor units according to the shifting mode if the inputted operation pattern is the shifting mode, then deactivating one of the indoor units after a predetermined of period of time(S21,22,23).

Description

Control method of air conditioner and the air conditioner using the same {The Control Method of Air Conditioner and Air Conditioner Using the Method}

1 is a block diagram showing operation control of a multi-type air conditioner according to a first embodiment of the present invention.

2 is a flowchart illustrating an operation control method of a multi-type air conditioner according to a first embodiment of the present invention.

3 is a block diagram showing operation control of a multi-type air conditioner according to a second embodiment of the present invention.

4 is a flowchart illustrating an operation control method of a multi-type air conditioner according to a second embodiment of the present invention.

* Description of symbols on the main parts of the drawings *

10: outdoor unit controller 20, 30: first, second indoor control unit

21,31: First and second indoor input device 22,32: First and second indoor driving unit

23,33: First and second indoor human body sensor

The present invention provides a method of controlling a multi-type air conditioner in which a plurality of indoor units are connected to at least one outdoor unit and the plurality of indoor units are separated and installed in each indoor space, wherein a user wants to control operations of the plurality of indoor units. When the control signal for setting the operation pattern of the plurality of indoor units is input to any one indoor unit to provide a control method that can control the operation of the plurality of indoor units accordingly.

The air conditioner connects main components such as a compressor, an outdoor heat exchanger, an expansion device, and an indoor heat exchanger with piping through which refrigerant is circulated to form a refrigeration cycle, and separates and installs the components in an outdoor unit and an indoor unit. It is a device to provide heating and cooling.

The indoor unit is generally configured to include an indoor expansion device, an indoor heat exchanger and a fan for an indoor heat exchanger, and in recent years, by connecting a plurality of indoor units to a single outdoor unit, multi-type air to individually provide heating and cooling for each partitioned area of the room. Harmonic method is used.

In the conventional multi-type air conditioner, when the user wants to control the operation of a plurality of indoor units, the user has to move the indoor space in which each indoor unit is installed, using a wireless remote control or manually inputting operation control signals individually to each indoor unit. have.

In addition, as an example, when the user wants to move the activity space from the living room to the inner room, the indoor indoor unit must be operated by moving directly to the inner room so that the heating and cooling room is provided until the inner room is provided with a comfortable heating and cooling effect for a predetermined time. The disadvantage is that you can't get it.

In addition, in the above example, when the user moves to the inner room and falls asleep while operating the living room and the indoor unit, there is a disadvantage in that unnecessary power consumption cannot be prevented.

The present invention is to solve the above problems, an object of the present invention is to control a multi-type air conditioner in which a plurality of indoor units are connected to at least one outdoor unit and the plurality of indoor units are separated and installed in each indoor space. When the user inputs a control signal for setting the operation pattern of the plurality of indoor units to any one indoor unit, the control method can minimize the amount of movement of the user by controlling the operation of the plurality of indoor units accordingly.

Another object of the present invention is to provide a comfortable air-conditioning even in the beginning of the movement by the air conditioning in advance in the corresponding indoor space when the user wants to move from the current position to another space, and each indoor unit has a predetermined set time It is to provide a control method that minimizes unnecessary power consumption by automatically stopping the operation when the elapsed.

In order to achieve the above object, the present invention provides a control method of an air conditioner including at least one outdoor unit and a plurality of indoor units connected to the outdoor unit, wherein an operation pattern for setting operations of the plurality of indoor units is input. And determining the input operation pattern, and controlling the operation of the plurality of indoor units according to the determined operation pattern.

The operation pattern may be input to any one indoor unit of the plurality of indoor units.

In addition, the operation pattern is a normal mode for individually controlling the operation of the plurality of indoor units, a movement mode for stopping some indoor units after operating the plurality of indoor units, and a sleep mode for sequentially stopping some indoor units and the remaining indoor units after operating the plurality of indoor units. It is characterized in that any one of.

In addition, the moving mode and the sleep mode is characterized in that each indoor unit is stopped after a set time elapses.

In addition, the movement mode and the sleep mode is characterized in that each indoor unit is stopped if it does not detect for more than a predetermined time by detecting the movement of the human body or human body.

The present invention also provides a plurality of indoor units according to at least one outdoor unit, a plurality of indoor units connected to the outdoor unit, an input device capable of inputting an operation pattern for setting operations of the plurality of indoor units, and an operation pattern input to the input device. Characterized in that the air conditioner including a control unit for controlling the operation of the operation temperature and operation time.

In addition, the input device is provided in each indoor unit, the control unit is characterized in that for controlling the operation of the plurality of indoor units according to the operation pattern input to the input device of any one of the indoor unit.

Each indoor unit further includes a sensor for detecting the movement of the human body or the human body, and detects the movement of the human body or the human body using the sensor to stop each indoor unit if it is not detected for a predetermined time.

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

1 is a block diagram showing operation control of a multi-type air conditioner in which two indoor units are connected to one outdoor unit as a first embodiment according to the present invention.

A communication line is connected between the outdoor unit controller 10 and the first and second indoor controllers 20 and 30, and the indoor unit receives information received by each indoor unit controller 20 and 30 according to a communication protocol determined through the communication line. When transmitting to the control unit 10, the outdoor unit control unit 10 determines this and transmits the necessary control signal to the first and second indoor control units 20 and 30.

In addition, the outdoor unit controller 10 exchanges information necessary for controlling the air conditioner with the memory 11, the timer 12, and transmits a control signal to the outdoor unit driver 13.

The indoor unit controllers 20 and 30 transmit information input from the respective input devices 21 and 31 to the outdoor unit controller 10 and transmit control signals received from the outdoor unit controller 10 to the respective indoor unit driver 22. , 32).

Each indoor unit driving unit provides cooling and heating to each indoor space by driving an indoor fan motor, an expansion device, and the like, according to the received control signal.

Hereinafter, the operation control method of the air conditioner according to the first embodiment of the present invention will be described with reference to FIG. 2 when the first indoor unit is installed in the living room and the second indoor unit is installed in the home room. In the above example, the mobile mode and the sleep mode are described on the assumption that the user wants to move from the living room to the home room.

First, the user may input one of the operation patterns of the normal mode, the movement mode, and the sleep mode through the input devices 21 and 31 of each indoor unit, and the input devices 21 and 31 may enter the respective operation patterns. The operation pattern may be displayed in such a manner that the respective operation patterns are selectable when the user presses a predetermined function button. In addition, preferred examples of the indoor unit input devices 21 and 31 include a remote controller or an operation unit located on the front of each indoor unit.

When the user inputs an operation pattern to the first indoor room using the first indoor input device 21 in the living room, the first indoor control unit 20 transmits it to the outdoor unit control unit 10, and the outdoor unit control unit 10 transmits it. It is determined whether the received signal is an input of an operation pattern (S5).

The outdoor unit controller 10 determines the input operation pattern when the operation pattern is input (S10). As a result of the determination, the outdoor unit controller 10 transmits a control signal corresponding to the signal input by the user to the first and second indoor control units 20 and 30 in the normal mode. To pass.

The first and second indoor control units 20 and 30 transmit the control signals to the first and second indoor driving units 22 and 32 to operate the respective indoor units.

The normal mode is useful when the user wants to maintain heating and cooling in both the living room and the room, and when the user selects the normal mode, the user can individually set the air volume and the set temperature of each indoor unit. It is also possible to set a number of a plurality of indoor units operated by assigning a unique number to each indoor unit.

If the input operation pattern is not the normal mode, the outdoor unit control unit 10 determines whether the moving mode (S20), and if the moving mode operates the first and second indoors and at the same time operates the timer (S21).

The outdoor unit controller 10 determines whether the operation time of the timer has elapsed (S22), and if not, returns to step S22, and if so, stops the first indoor unit installed in the living room.

The moving mode is useful when the user does not return to the living room after moving back to the room or returns after a long time, and can cool the room in advance and automatically prevent unnecessary cooling and heating for the living room after the user moves to the room. can do.

When the user selects the moving mode, the user can individually set the air volume and the set temperature of each indoor unit, and when there are three or more indoor units, the user can assign a unique number to each indoor unit to set a plurality of the first or second indoor units. have.

In addition, the set time may be stored in the memory of the outdoor unit controller 10 in advance or may be directly input by the user when the moving mode is selected.

If it is not the movement mode at step S20, the outdoor unit controller 10 recognizes the sleep mode, operates the first and second rooms and simultaneously operates the timer.

The outdoor unit controller 10 determines whether the operation time of the timer has passed the first set time (S32), and if not, returns to step S32, and if so, stops the first indoor unit installed in the living room. )

The outdoor unit controller 10 determines whether the operation time of the timer has passed the second set time (S34), and if not, returns to step S34, and if so, stops the second indoor unit installed in the room. )

The sleep mode is useful when the user stays in the room for reasons such as going to bed, the room can be pre-heated and cooled in advance, the user can automatically prevent unnecessary heating and heating for the living room after moving to the room, After the elapsed time, the heating and cooling are automatically stopped even for the currently located home room, which can further reduce unnecessary power consumption.

When the user selects the sleep mode, the user can individually set the air volume and the set temperature of each indoor unit, and if there are three or more indoor units, the user may assign a unique number to each indoor unit to set a plurality of the first or second indoor units. have.

In addition, the set time may be previously stored in the memory of the outdoor unit controller 10 or may be directly input by the user when the sleep mode is selected.

Hereinafter, a case in which two indoor units are connected to one outdoor unit will be described with reference to FIGS. 3 and 4.

3 is a block diagram showing operation control of the multi-type air conditioner according to the second embodiment of the present invention. The same reference numerals are used for the same elements.

Each indoor unit controller 20, 30 receives a signal from the human body sensor 23, 33 provided in each indoor unit, transmits the signal to the outdoor unit controller 10, and outputs a control signal output by the outdoor unit controller 10. Transfer to the detection sensors (23, 33). Other operation control is the same as that of the first embodiment, and thus detailed description thereof is omitted.

Hereinafter, the operation control method of the air conditioner according to the second embodiment of the present invention will be described with reference to FIG.

When the user inputs an operation pattern to the first indoor room using the first indoor input device 21 in the living room, the first indoor control unit 20 transmits it to the outdoor unit control unit 10, and the outdoor unit control unit 10 transmits it. It is determined whether the received signal is an input of an operation pattern (S105).

When the operation pattern is input, the outdoor unit controller 10 determines the input operation pattern (S110), and if the normal mode is a normal mode, a control signal corresponding to a signal input by the user to the first and second indoor control units 20 and 30. To pass.

The first and second indoor control units 20 and 30 transmit the control signals to the first and second indoor driving units 22 and 32 to operate the respective indoor units.

If the input operation pattern is not the normal mode, the outdoor unit control unit 10 determines whether the moving mode (S120), and if the moving mode is the first and second indoors (S121).

The outdoor unit controller 10 determines whether the human body sensor 23 of the first indoor sensor is detected (S122) when the human body is detected and returns to step S122, and if the human body is not detected for a predetermined time or more, it is installed in the living room. The first indoor room is stopped (S123).

If it is not the movement mode at step S120, the outdoor unit controller 10 recognizes the sleep mode, operates the first and second rooms and simultaneously operates the timer.

The outdoor unit controller 10 determines whether the human body sensor 23 of the first indoor sensor is detected (S132) when the human body is detected and returns to step S132, and if the human body is not detected for a predetermined time or more, it is installed in the living room. The first indoor room is stopped (S133).

The outdoor unit controller 10 determines whether the operation time of the timer has passed the set time (S134), and if not, returns to step S134, and if so, stops the second indoor unit installed in the home room (S135).

Instead of the timer in step S134, a method of controlling whether or not to stop the operation of the second indoor according to whether or not the human body detection sensor 33 of the second indoor sensor is applicable.

In addition, the human body sensor includes a sensor for detecting the movement of the human body as well as a sensor for detecting the human body.

As described in detail above, the present invention provides a control method of a multi-type air conditioner, in which a plurality of indoor units are connected to at least one outdoor unit, when a user wants to control the operation of a plurality of indoor units. An indoor unit in which the user operates as needed by controlling the operation of the plurality of indoor units by inputting a control signal for setting the operation patterns of the plurality of indoor units and dividing the operation pattern into a normal mode, a moving mode, and a sleeping mode. In addition, by setting the operating temperature and the operation pattern, the user's movement and unnecessary power consumption required to control the operation of each indoor unit can be minimized, and comfortable heating and cooling can be provided even in the early stage of moving the indoor space.

Claims (9)

A control method of an air conditioner including at least one outdoor unit and a plurality of indoor units connected to the outdoor unit, It is determined whether an operation pattern for setting operations of the plurality of indoor units is input, and whether the input operation pattern is a movement mode, and if the input operation pattern is the movement mode, operates the plurality of indoor units according to the movement mode. The control method of the air conditioner, characterized in that for controlling after stopping some indoor unit. The method of claim 1, The operation pattern is a control method of an air conditioner, characterized in that input to any one of the indoor unit of the plurality of indoor units. The method of claim 1,       And controlling the indoor unit when the set time has elapsed if the input operation pattern is the movement mode. The method of claim 1, If the input operation pattern is the movement mode, the control unit of the air conditioner, characterized in that each indoor unit is stopped if the movement of the human body or the human body is not detected for a predetermined time.        The method of claim 1,       It is further determined whether the input operation pattern is a sleep mode, and if the input operation pattern is the sleep mode, after operating the plurality of indoor units, the indoor unit and the remaining indoor units are sequentially stopped. Control method. The method of claim 5,       And controlling each indoor unit when a predetermined time elapses when the input operation pattern is the sleep mode. The method of claim 5,       If the input operation pattern is the sleep mode, the control unit of the air conditioner, characterized in that to stop each indoor unit when no movement of the human body or human body for more than a predetermined time.  At least one outdoor unit; A plurality of indoor units connected to the outdoor unit; An input device capable of inputting an operation pattern for setting operations of the plurality of indoor units; Sensors installed in each indoor unit for detecting the movement of the human body or the human body; And A control unit for controlling the operation of the plurality of indoor units, the operation temperature and the operation time according to the operation pattern input to the input device, and stopping each indoor unit when the movement of the human body or the human body is not detected using the sensor for a predetermined time. Air conditioner characterized in that. The method of claim 8, The input device is provided in each indoor unit, The control unit is characterized in that for controlling the operation of the plurality of indoor units according to the operation pattern input to the input device of any one of the indoor unit.

Images