Air conditioner and control method thereof

What is claimed is: 1 . An air conditioner comprising: an evaporator; a condenser; a base disposed under the evaporator; a scattering wheel configured to scatter water stored in the base toward the condenser; a wheel motor configured to rotate the scattering wheel; an outdoor fan configured to blow outdoor air into the condenser; a fan motor configured to rotate the outdoor fan; a water level sensor configured to detect a water level of the water stored in the base; and a controller, comprising processing circuitry, individually and/or collectively, configured to rotate the wheel motor and the fan motor based on termination of an operation of the air conditioner and a detection result of the water level sensor. 2 . The air conditioner of claim 1 , wherein in response to the detected water level being higher than or equal to a first water level, the controller is configured to rotate the wheel motor and to perform a first mode, in which the fan motor is rotated at a first speed, for a reference time. 3 . The air conditioner of claim 2 , wherein in response to a water level, detected after the performance of the first mode, being lower than the first water level, the controller is configured to rotate the wheel motor and to perform a second mode, in which the fan motor is rotated at a second speed less than the first speed, for a reference time. 4 . The air conditioner of claim 1 , wherein in response to the detected water level being lower than a first water level, the controller is configured to rotate the wheel motor and to perform a first mode, in which the fan motor is rotated at a first speed, for a reference time. 5 . The air conditioner of claim 1 , wherein in response to the detected water level higher than or equal to a second water level higher than a first water level, the controller is configured to rotate the wheel motor. 6 . The air conditioner of claim 5 , wherein in response to the water level, detected after the rotation of the wheel motor, being lower than the first water level, the controller is configured to rotate the fan motor for a reference time. 7 . The air conditioner of claim 5 , wherein in response to the water level, detected after the rotation of the wheel motor, being higher than or equal to the first water level, the controller is configured to maintain the rotation of the wheel motor. 8 . The air conditioner of claim 1 , further comprising: a communication circuitry configured to communicate with a server, wherein the controller is configured to rotate the fan motor based on external environmental information received through the communication circuitry. 9 . The air conditioner of claim 8 , wherein the external environment information comprises at least one of outdoor weather information, outdoor temperature information, outdoor humidity information, or outdoor air cleanliness information. 10 . The air conditioner of claim 1 , further comprising: a communication circuitry configured to communicate with a server, wherein the controller is configured to rotate the fan motor at a maximum speed in response to determination that a user is absent based on information received through the communication circuitry. 11 . A method of controlling an air conditioner comprising an evaporator; a condenser; a base disposed under the evaporator; a scattering wheel configured to scatter water stored in the base toward the condenser; a wheel motor configured to rotate the scattering wheel; an outdoor fan configured to blow outdoor air into the condenser; and a fan motor configured to rotate the outdoor fan, the method comprising: receiving a command to terminate an operation of the air conditioner; detecting a water level of water stored in the base; and rotating the wheel motor and the fan motor based on a detection result. 12 . The control method of the air conditioner of claim 11 , wherein the rotating of the wheel motor and the fan motor comprises, in response to the detected water level being higher than or equal to a first water level, rotating the wheel motor and performing a first mode, in which the fan motor is rotated at a first speed, for a reference time. 13 . The control method of the air conditioner of claim 12 , wherein the rotating of the wheel motor and the fan motor comprises, in response to a water level, detected after the performance of the first mode, being lower than the first water level, rotating the wheel motor and performing a second mode, in which the fan motor is rotated at a second speed less than the first speed, for a reference time. 14 . The control method of the air conditioner of claim 11 , wherein the rotating of the wheel motor and the fan motor comprises, in response to the detected water level being lower than a first water level, rotating the wheel motor and performing a first mode, in which the fan motor is rotated at a first speed, for a reference time. 15 . The control method of the air conditioner of claim 11 , wherein the rotating of the wheel motor and the fan motor comprises, in response to the detected water level higher than or equal to a second water level higher than a first water level, rotating the wheel motor.