IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0210438
(2011-08-16)
|
등록번호 |
US-8689570
(2014-04-08)
|
우선권정보 |
KR-10-2010-0126676 (2010-12-13) |
발명자
/ 주소 |
- Yeo, Jongseob
- Lim, Jiwon
- Kim, Juhyun
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
9 |
초록
▼
An air conditioning apparatus is provided that includes an indoor device including a heat exchanger, and a remote controller to input an operation condition of the indoor device. The remote controller includes a sensor that senses a moving state of the remote controller, a controller that determines
An air conditioning apparatus is provided that includes an indoor device including a heat exchanger, and a remote controller to input an operation condition of the indoor device. The remote controller includes a sensor that senses a moving state of the remote controller, a controller that determines the operation condition of the indoor device based on a result sensed by the sensor, and a signal transmitting and receiving device that transmits and receives a signal to and from the indoor device. The indoor device includes a blower, a wind direction controller that controls a discharge direction of air discharged from the blower, a signal transmitting and receiving device that transmits and receives a signal to and from the remote controller, and a controller that controls the driving of the blower and the wind direction controller in accordance with the operation condition received from the remote controller.
대표청구항
▼
1. An air conditioning apparatus, comprising: an indoor device including a heat exchanger; anda remote controller through which an operation condition of the indoor device is input, wherein the remote controller includes: a first sensor that senses a moving state of the remote controller;a first con
1. An air conditioning apparatus, comprising: an indoor device including a heat exchanger; anda remote controller through which an operation condition of the indoor device is input, wherein the remote controller includes: a first sensor that senses a moving state of the remote controller;a first controller that determines the operation condition of the indoor device based on a result sensed by the first sensor;a display that shows at least an operation state of the indoor device;a second sensor that senses whether a user grips the remote controller;a lighting device that radiates light to the display when the user grips the remote controller; anda first signal transmitting and receiving device that transmits and receives a signal to and from the indoor unit device, and wherein the indoor device includes: a blower;a wind direction controller that controls a discharge direction of air discharged from the blower;a second signal transmitting and receiving device that transmits and receives a signal to and from the remote controller; anda second controller that controls driving of the blower and the wind direction controller in accordance with the operation condition received from the remote controller. 2. The air conditioning apparatus of claim 1, wherein the moving state of the remote controller includes at least one of or both a horizontal rotation and a vertical rotation of the remote controller. 3. The air conditioning apparatus of claim 1, wherein the first sensor includes at least one of an angular velocity sensor or an acceleration sensor that senses a horizontal rotation or a vertical rotation of the remote controller. 4. The air conditioning apparatus of claim 1, wherein the remote controller further includes: an input through which a motion control function to change the operation condition of the indoor device in accordance with the moving state of the remote controller is selected. 5. The air conditioning apparatus of claim 1, wherein the second sensor includes one of a capacitance sensor or a pressure sensor. 6. The air conditioning apparatus of claim 1, wherein the first and second signal transmitting and receiving devices each includes one of infrared communication, Bluetooth, or ZigBee. 7. The air conditioning apparatus of claim 1, further comprising a smart meter that senses electrical power supplied to a home in which the indoor device is installed, wherein the smart meter is connected to communicate with the second controller of the indoor device using a wireless or wired method. 8. A control method for an air conditioning apparatus including an indoor device and a remote controller to input a driving command of the indoor device, the control method comprising: starting a motion control function;sensing, by a sensor incorporated in the remote controller, a moving state of the remote controller;selecting an operation condition of the indoor device in accordance with a result sensed by the sensor;transmitting the operation condition to the indoor device; anddriving the indoor device in accordance with the transmitted operation condition, wherein the motion control function is cancelled when a predetermined time elapses after the sensor senses the moving state of the remote controller or when a cancellation command is input through an input provided in the remote controller. 9. The control method of the air conditioning apparatus of claim 8, wherein the moving state of the remote controller sensed by the sensor includes a rotational angle or a rotational velocity of the remote controller in a predetermined direction. 10. The control method of the air conditioning apparatus of claim 9, wherein one of or both a wind direction or a wind velocity are changed in accordance with a rotational direction of the remote controller. 11. The control method of the air conditioning apparatus of claim 9, wherein a rotational angle of a wind direction control device provided in the indoor device or a rotational velocity of a fan provided in the indoor device is changed in accordance with a rotational direction of the remote controller. 12. The control method of the air conditioning apparatus of claim 8, wherein the starting of the motion control function is performed by inputting a motion control command through the input provided in the remote controller. 13. The control method of the air conditioning apparatus of claim 8, wherein light is radiated from a rear part of a display of the remote controller when a user grips the remote controller. 14. The control method of the air conditioning apparatus of claim 8, wherein the sensor is automatically initialized when a predetermined time elapses after the sensor senses the moving state of the remote controller. 15. The control method of the air conditioning apparatus of claim 8, further comprising sensing, by a smart meter that senses electrical power supplied to a home in which the indoor device is installed, the electrical power supplied indoor. 16. The control method of the air conditioning apparatus of claim 15, wherein when it is judged that a power consumption sensed by the smart meter reaches a peak value, the operation of the indoor device through the motion control function is configured to be restricted. 17. The control method of the air conditioning apparatus of claim 16, wherein the motion control function is configured to be interrupted by the operational restriction of the indoor device. 18. The control method of the air conditioning apparatus of claim 16, wherein the operation condition of the indoor device corresponding to the time when the power consumption reaches the peak value is previously set, and wherein the previously set operation condition of the indoor device is configured to be performed preferentially over the operation condition through the motion control function. 19. The control method of the air conditioning apparatus of claim 16, wherein an air volume of the indoor device corresponding to the time when the power consumption reaches the peak value is previously set, and wherein an air volume condition among the operation conditions input through the motion control function is configured to be substituted by the previously set air volume when the power consumption reaches the peak value. 20. An air conditioning apparatus, comprising: an indoor device including a heat exchanger; anda remote controller through which an operation condition of the indoor device is input, wherein the remote controller includes: a sensor that senses a moving state of the remote controller;a first controller that determines the operation condition of the indoor device based on a result sensed by the sensor;a first signal transmitting and receiving device that transmits and receives a signal to and from the indoor device, wherein the indoor device includes: a blower;a wind direction controller that controls a discharge direction of air discharged from the blower;a second signal transmitting and receiving device that transmits and receives the signal to and from the remote controller; anda second controller that controls driving of the blower and the wind direction controller, wherein the second controller increases a velocity of the blower and rotates the wind direction controller upward when the remote controller is swung upward and thereafter, restored to an original position, and wherein the second controller increases the velocity of the blower for a preset time interval and rotates the wind direction controller in a pre-determined direction when the remote controller is swung downward.
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