KR102004523B1 - Indoor unit of air conditioning apparatus and air conditioning system - Google Patents

Abstract

The present invention relates to an air conditioner and an air conditioning system in which a wind direction condition is set by a user's finger dragging operation on a display screen and an indoor unit is driven in accordance with a set wind direction condition, There is an advantage that it is not necessary to adjust the wind direction through the buttons on the control panel.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an indoor unit of an air conditioner,

The present invention relates to an indoor unit of an air conditioner and an air conditioning system.

Generally, an air conditioner is a household appliance that supplies hot air or cold air to an indoor space by operation of a refrigerant cycle.

In recent years, a large number of portable terminals capable of accessing the Internet as well as a smart phone, downloading a document, a game program, a document file, and the like can be freely executed and a telephone conversation is possible.

In recent years, a home network system capable of controlling the operation of electric appliances including household appliances installed in a home using a portable terminal has been widely used in newly-built apartments or general households.

As described above, remote control can be performed from a remote place without directly operating various home appliances including the air conditioner, and the usability is greatly improved. However, up to now, there has not been developed a system capable of directly designing or designing the air direction of an indoor unit of an air conditioner using a portable terminal.

An object of the present invention is to provide an indoor unit and an air conditioning system of an air conditioner, in which a user directly controls the wind direction of the indoor unit of the air conditioner and the operation of the indoor unit is controlled so that the wind is discharged according to the wind direction drawn by the user .

According to an embodiment of the present invention, there is provided an air conditioning system including an application for sensing a movement path of a touch point or a touch point of a display screen and determining an operation mode of the indoor unit based on a detection result, An application server to manage; An indoor unit having a control unit for receiving a signal corresponding to the operation mode from the application server or a portable terminal installed with the application; And a position sensor provided on a front surface of the indoor unit for sensing a position of a user. When the application is executed, a first virtual indoor screen showing an indoor space installed in the indoor unit on the upper side of the indoor unit is displayed, The actual position of the user is sensed by the position sensor, the sensing value of the actual position of the user transmitted from the position sensor is converted into the coordinate value by the control unit of the indoor unit, and the coordinate value is applied to the first virtual indoor screen The user's position is set, the user's position corresponding to the user's actual position is displayed on the first virtual indoor screen, and in a state where the first virtual indoor screen is displayed, In accordance with the operation of touching and dragging the indoor unit displayed on the indoor screen of the touch point The operation path of the indoor unit corresponding to the image to be recognized is extracted, and the operation mode of the indoor unit is determined as a wind direction setting condition And when the indoor unit is driven according to the extracted wind direction setting condition, the wind is discharged from the indoor unit displayed on the second virtual indoor screen showing the inner space installed with the indoor unit viewed from the front of the indoor unit Wherein the display unit displays an image on the display unit of the indoor unit or the display screen of the portable terminal.

delete

delete

delete

According to the air conditioning system of the present invention configured as described above, the display screen of the indoor unit or the application installed in the portable terminal can be executed, and the direction or form of the wind discharged from the indoor unit on the screen provided by the application There is an advantage that it can be designed directly.

Alternatively, even if the control panel of the indoor unit does not have a button for selecting the wind direction, the user can set the wind direction by dragging the display screen of the wireless remote controller, the indoor unit, or the display screen of the portable terminal with a finger.

1 is a system diagram showing the configuration of an air conditioning system according to an embodiment of the present invention;
2 is a block diagram showing a configuration of an air conditioning system according to an embodiment of the present invention;
3 is a view showing a method of adjusting a wind direction according to an embodiment of the present invention.
4 is a flowchart showing a process of displaying a user sensed by a position sensor of an indoor unit on a display screen.

Hereinafter, an air conditioning system according to an embodiment of the present invention will be described in detail with reference to the drawings.

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

Referring to FIG. 1, an air conditioning system according to an embodiment of the present invention includes an indoor unit 10 of an air conditioner for supplying cold air or hot air, and an application 203 for controlling the operation of the indoor unit 10 And an application server 40 for receiving the indoor unit operation information stored in the application 203 and transmitting the indoor unit operation information to the indoor unit 10.

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

2, an indoor unit 10 constituting an air conditioning system according to an embodiment of the present invention includes a control unit 100, an input unit 110, a display unit 120, a sensing unit 130, a wireless communication unit 140, a timer 150, a memory 160, a driving unit 170, and an audio output unit 180.

The input unit 110 includes a remote controller 111 and a button unit 112 or a display unit 120 disposed at a position adjacent to the display unit 120. [ And a touch screen 113 formed on the touch screen.

In addition, the display unit 120 includes an LCD panel, an LED panel, and the like as a screen on which various information including the operation information of the indoor unit is output. In addition, it is noted that all types of display units existing are available.

The sensing unit 130 includes a temperature sensor 131 for sensing the room temperature, a humidity sensor 132 for sensing the humidity of the room, and a position sensor 133 for sensing the position of the user. The position sensor 133 may include an infrared sensor. Alternatively, although not shown, a camera may be mounted on the front surface of the indoor unit 10 so that the user can determine the position of the user by comparing and determining images continuously captured by the camera.

The wireless communication unit 140 may be a WiFi module, a Bluetooth module, or a GigBee module as a means for wirelessly communicating with the mobile terminal 20 or the application server 40. [ And the like. Of course, in order to enable wireless communication between the application server 40 and the wireless communication unit 140 of the indoor unit, a relay means is required. For example, in order to perform Wi-Fi communication, a wired / wireless router that becomes an access point (AP) for wireless communication is required in an area where the indoor unit 10 is installed.

In addition, the portable terminal 20 and the indoor unit 10 can perform peer-to-peer communication through the wireless communication unit 140. That is, when the wireless communication module built in the portable terminal 20 and the communication module configuring the wireless communication unit 140 of the indoor unit 10 are WiFi modules, WiFi-Direct or Ad-Hoc ) Function, it is possible to communicate directly without going through the access point.

In detail, Wi-Fi direct refers to a technology capable of communicating at a high speed using a communication standard such as 802.11a, b, g, or n regardless of the installation of a wireless LAN access point (AP). That is, the portable terminal 20 and the indoor unit 10 can communicate wirelessly without passing through a wireless LAN access point (wireless router or wireless router described above). This technology has recently attracted a great deal of attention as a communication technology for wirelessly connecting the indoor unit 10 and the portable terminal 20 via wireless without an internet network.

Ad hoc mode (or ad hoc network) is a network that is composed of only a mobile host without having a fixed wired network. Since there is no restriction on the movement of the host and no wired network and base station are needed, This is inexpensive. That is, even if there is no wireless LAN access point (AP), wireless communication is enabled during the terminal period. Therefore, in the ad-hoc mode, the portable terminal 20 and the indoor unit 10 can communicate wirelessly even without the wireless LAN connection device.

Bluetooth communication is a widely known short range wireless communication method in which a pairing process is performed between a Bluetooth module built in the portable terminal 20 and a Bluetooth module built in the indoor unit 10, This is possible.

Meanwhile, the timer 150 may be provided to count an operation time of the indoor unit 10, and the memory 160 may be provided to store operation conditions of the indoor unit and other received information.

The driving unit 170 is a means for controlling the operation of the compressor 171, the indoor fan 172, the wind direction adjuster 173 and the like for driving the refrigeration cycle, .

In addition, the sound output unit 180 includes a speaker and is a means for notifying the start and end of operation or the current operation state by voice.

The portable terminal 20 includes a control unit 200, an input unit 210, a display unit 220, and a wireless communication unit 230.

The input unit 210 may include a button unit or a touch screen 211 as in the case of the input unit 110 of the indoor unit 10. [ Recently, a smart phone which inputs a command by touching with a finger is mainly made of a mobile terminal, and a touch screen type input unit is mainly used for such a smart phone. Hereinafter, an input unit employing a touch screen method will be described as an embodiment.

More specifically, the wireless communication unit 230 may include a short-range wireless communication means such as Wi-Fi, Bluetooth, ZigBee, or the like as communication means for transmitting and receiving information with the indoor unit 10.

Hereinafter, a method of controlling the operation of the wind direction adjuster of the indoor unit according to the wind direction of the indoor unit and the drawn wind direction by the user will be described. This wind direction control method can be named as "I draw wind".

3 is a view illustrating a method of adjusting a wind direction according to an embodiment of the present invention.

In FIG. 3, the user sets the wind direction of the indoor unit using the portable terminal 20 as an example. However, the wind direction setting method can be directly set through the display unit 120 of the indoor unit 10. That is, it is also possible to install the wind direction setting application in the control unit of the indoor unit 10, to execute the application, and then drag the finger on the display unit 120 to directly draw the direction of the wind.

As another method, a wireless remote controller provided for inputting an operation command of the indoor unit 10 is also possible. More specifically, it is possible to set the wind direction setting application on the wireless remote controller, and drag the finger through the display portion provided on the wireless remote controller to draw the wind direction directly. The determined wind direction mode is transmitted to the control unit of the indoor unit 10 when a linear image drawn by dragging with the finger or an area of the screen passing through the finger is detected and a specific wind direction is determined. The indoor unit 10 may transmit an operation control signal according to the transmitted wind direction mode to the driving unit.

First, the user executes an application installed in the controller of the wireless remote controller, the portable terminal 20 or the indoor unit 10 (S11). The wind direction setting application 203 may be installed on the display unit 220 of the wireless remote controller or the portable terminal 20 or the display unit 120 of the indoor unit 10 in the form of an icon or a GUI.

When the application is executed, the display screen is turned on (S12), and a virtual screen showing the internal space in which the indoor unit 10 is installed is displayed. Here, the virtual screen may be provided with an indoor unit 10, and a plurality of fan-shaped detection zones may be partitioned forward from the indoor unit 10 as a starting point. Then, the virtual screen is displayed and the position of the user is detected, so that the position of the user can be displayed on the display screen.

In this state, the user can drag the finger on the screen and draw the shape of the wind from the indoor unit image (S13). Then, dragging traces are tracked on the display screen to extract the wind direction mode. Then, the operation mode of the indoor unit is extracted so as to discharge the wind in the extracted wind direction mode (S14).

Here, when the user uses the finger to drag on the screen, it is possible to draw an image showing the appearance of the wind along the dragging path, that is, the movement path of the touch point, on the screen. As shown in the figure, when the user touches the screen with his / her finger to drag the screen, the shape of the wind discharge is drawn in a curved shape along the finger so that the drag path of the user can be visually confirmed.

There may be a variety of methods for detecting the direction of the wind drawn by the user's finger from the control unit of the portable terminal 20 or the indoor unit 10. [

First, as described above, the screen area corresponding to the indoor space in front of the indoor unit may be divided into a plurality of detection zones centered on the indoor unit image. In detail, in a state where a virtual screen is divided into a plurality of detection zones, when a user dragging a finger on the display screen, it will be detected in a zone where the finger passes. Finally, the detection zone through which the user's finger has passed can be continuously connected and the wind can be discharged to the connected detection zone.

In this case, the indoor unit operation condition for the combination of the detection zones in which the finger passes is stored in the memory of the portable terminal 20 or the indoor unit 10 in the form of a look-up table. For example, when the finger passes through the 1, 2, and 3 detection zones, the operation condition is set to indirect wind, and when the finger passes through the 1, 3, and 4 detection zones, the operation conditions can be set to direct wind. As described above, the combination of the detection zones corresponding to the wind direction that can be designed and implemented by the dragging operation of the user is stored in the form of a table, and the sensed result and the table are compared to extract matching operation condition values. It will be apparent to those skilled in the art that the wind direction conditions extracted through the dragging operation are limited to the wind direction that can be practically realized in the indoor space by the operation of the discharge vane and the louver.

Alternatively, when the user dragging the finger on the display screen, it is possible to detect the moving path of the finger to be dragged and store it in the image form to extract the driving mode.

In detail, in the case of a touch screen that senses using a change in capacitance, a user's finger movement path can be precisely detected. Accordingly, the movement path of the finger is continuously tracked and sensed, and the movement path is stored in the form of an image. In the memory of the portable terminal 20 or the indoor unit 10, the operation condition corresponding to the image, that is, the operation mode may be stored in the form of a lookup table. Accordingly, the sensed image is compared with the image stored in the lookup table, and an operation condition corresponding to the image having the highest similarity can be extracted.

On the other hand, if the operation mode drawn through the dragging is extracted, the operation condition of the extracted operation mode is transmitted to the control unit of the indoor unit 10 (S15). At this time, when the user executes and drags the application of the portable terminal 20, the operating condition is transmitted from the wireless communication unit 230 of the portable terminal 20 to the application server 40, The operation condition is transmitted to the wireless communication unit 140 of the wireless communication unit 10. Alternatively, it may be directly transmitted from the portable terminal 20 to the indoor unit 10 via Wi-Fi or Bluetooth communication.

On the other hand, when the user executes the application installed on the display unit of the indoor unit 10 and dragging the application, the control unit of the indoor unit 10 will immediately sense it.

When the operation condition is transmitted to the control unit 100 of the indoor unit 10, the control unit 100 transmits an operation control command to the driving unit 170, and the driving unit 170 controls the wind direction including the discharge vane The control unit 173 and the indoor fan 172 are driven (S16). In a state where the indoor unit 10 is operating, the wind to be discharged is visually output to the display unit 120 or 220 of the portable terminal 20 or the indoor unit 10 (S17). That is, a virtual indoor screen including the indoor unit and the user is displayed on the display units 120 and 220, and a wind graphic corresponding to the current wind direction mode can be output.

In the above description, the indoor unit operation condition information corresponding to the specific wind direction mode is transmitted from the wireless remote controller and the wireless terminal through the wireless communication, and the control unit 100 of the indoor unit 10 receives the indoor unit operation condition information. .

For example, when the wind direction mode is extracted through dragging, only the wind direction mode information is transmitted to the control unit 100 of the indoor unit 10 through the wireless communication, and the control unit 100 of the indoor unit 10 receives the operation condition corresponding to the wind direction mode Can be stored in a table form. Therefore, the indoor unit 10 receives only the information about the wind direction mode through the wireless communication, and the indoor unit operation condition corresponding to the received wind direction mode is extracted from the control unit 100 of the indoor unit 10. The electric signal corresponding to the extracted operation condition may be transmitted to the driving unit of the indoor unit 10.

4 is a flow chart showing a process of displaying a user sensed by a position sensor of an indoor unit on a display screen.

Referring to FIG. 4, when a so-called "green wind" mode application is executed, a virtual indoor screen is displayed on the display screen of the portable terminal 20 or the indoor unit 10. At the same time, the position of the user is detected and the position of the user is displayed on the virtual indoor screen.

A method of detecting the position of an actual user and applying it to a virtual indoor screen in a display screen will be described in detail.

First, when the "green wind" mode application is executed, the position sensor 133 mounted on the front surface of the indoor unit 10 is turned on (S21). Then, the position sensor 133 senses the actual position of the user in the space where the indoor unit is installed (S22). The controller of the indoor unit 10 executes a program for converting the position of the user into a coordinate value based on the indoor unit 10 when the user senses the actual position of the user. For example, the position sensor 133 detects that the user is located at a distance of several meters from the center of the actual indoor unit, and a few meters away from the center of the indoor unit. The sensing values are converted into coordinate values and transmitted to the controller 200 of the wireless remote controller, the controller 200 of the wireless terminal 20 or the controller 200 of the indoor unit 10 (S23). The control unit of the portable terminal 20 or the indoor unit 10 substitutes the converted coordinate values into the virtual indoor space. In step S24, the user's position is displayed on the display screen based on the indoor unit drawn in the virtual indoor space so as to correspond to the position of the user based on the indoor unit 10 in the actual space.

In this state, the user can drag the finger using the finger to cause the wind to be ejected in a desired direction. For example, if the indirect wind mode is dragged on the area separated from the user on the display screen, the indirect wind mode operation in which the wind actually discharged from the indoor unit 10 is not directly discharged to the actual user will be performed.

Claims (19)

An application server that manages an application that detects a movement path of a touch point or touch point of a display screen and determines an operation mode of the indoor unit based on a detection result;
An indoor unit having a control unit for receiving a signal corresponding to the operation mode from the application server or a portable terminal installed with the application; And
And a position sensor provided on a front surface of the indoor unit for sensing a position of a user,
When the application is executed, a first virtual indoor screen showing an indoor space in which the indoor unit is installed is displayed on the upper side of the indoor unit,
The actual position of the user is sensed by the position sensor,
The sensed value of the user's actual position transmitted from the position sensor is converted into a coordinate value in the control unit of the indoor unit,
The coordinate value is applied to the first virtual indoor screen to set a user's location,
The user position corresponding to the actual position of the user is displayed on the first virtual indoor screen,
The moving path of the touch point is detected according to an operation of touching and dragging the indoor unit displayed on the first virtual indoor screen as a starting point in a state where the first virtual indoor screen is displayed,
The movement path of the touch point detected is recognized as a linear or curved image,
The operation mode of the indoor unit corresponding to the recognized image is extracted,
Wherein the operation mode of the indoor unit is a wind direction setting condition,
When the indoor unit is driven according to the extracted wind direction setting condition, an image showing a state in which the wind is discharged in the dragged direction from the indoor unit displayed on the second virtual indoor screen showing the indoor space in which the indoor unit installed from the front of the indoor unit is installed Is displayed on the display unit of the indoor unit or the display screen of the portable terminal. delete The method according to claim 1,
Wherein the first imaginary indoor screen is divided into a plurality of sensing zones formed in a sector shape forward from the indoor unit as a starting point,
Wherein the wind direction setting condition of the indoor unit is determined by a continuous combination of the detection zones placed on the touch path. delete The method according to claim 1,
And a memory in which the wind direction setting condition corresponding to the operation mode is stored in the form of a lookup table. delete delete delete delete The method according to claim 1,
Wherein when the touch point moves on the display screen, an image showing a state in which the wind is discharged from the indoor unit on the first virtual indoor screen along the movement path of the touch point is displayed on the screen. delete delete delete delete delete delete delete delete delete

Images