Air conditioner and method for controlling the same

What is claimed is: 1. An air conditioner comprising: a cabinet configured to form an external surface of an outdoor unit, and including an air inlet and an air outlet; a heat-exchanger accommodated in the cabinet to perform heat exchange; a blowing fan configured to suction air through the air inlet, cause the suctioned air to pass through the heat-exchanger to form heat-exchanged air, and discharge the heat-exchanged air through the air outlet; a discharge directing cover provided at an upper part of the air outlet, and configured to direct flow of the heat-exchanged air to an outlet of the discharge directing cover; at least one blade coupled to the outlet of the discharge directing cover, and configured to adjust an amount of the flow of the heat-exchanged air; a compressor disposed in the cabinet, and configured to compress a refrigerant; at least one pressure sensor mounted to each of a discharge part and a suction part of the compressor, and configured to detect high pressure of a high pressure part of the refrigerant passing through the compressor and low pressure of a low pressure part of the refrigerant passing through the compressor; and a controller configured to control the amount of the flow of heat-exchanged air by controlling an angle of the at least one blade according to the low pressure detected by the at least one pressure sensor, a compression ratio, and a current angle of the at least one blade. 2. The air conditioner according to claim 1 , wherein the heat-exchanger is a condenser configured to condense the refrigerant discharged from the compressor through heat exchange between the refrigerant and the suctioned air to form the heat-exchanged air. 3. The air conditioner according to claim 2 , wherein: the cabinet includes a rear surface and a pair of side surfaces, the air inlet is formed in the rear surface and the pair of side surfaces, and the condenser is configured to be proximate to the rear surface and the pair of side surfaces of the cabinet, and perform the heat exchange between the condenser and the suctioned air suctioned through the air inlet formed in the rear surface and the pair of side surfaces of the cabinet. 4. The air conditioner according to claim 1 , wherein the compression ratio is a value that is acquired by dividing the detected high pressure by the detected low pressure. 5. The air conditioner according to claim 1 , wherein: when the detected high pressure is equal to or lower than a minimum high pressure, the controller controls the angle of the at least one blade with a full close output, so that the at least one blade is closed and the outlet of the discharge directing cover is closed. 6. The air conditioner according to claim 1 , wherein: when the detected high pressure is higher than a minimum high pressure, the controller controls the angle of the at least one blade with an open output, so that the at least one blade is opened by a predetermined amount and the amount of the flow of the heat-exchanged air is adjusted. 7. The air conditioner according to claim 1 , wherein: when the detected high pressure is higher than a minimum high pressure, the controller controls the angle of the at least one blade with an open output or a close output according to the detected low pressure, a compression ratio, and a current angle of the at least one blade, so that the at least one blade is opened by a predetermined amount or closed by a predetermined amount and the amount of the flow of the heat-exchanged air is adjusted. 8. The air conditioner according to claim 1 , further comprising: an outdoor temperature sensor configured to detect an outdoor temperature of an outdoor space in which the outdoor unit is installed, wherein the controller compares the outdoor temperature detected by the outdoor temperature sensor with a reference temperature, determines an outdoor low-temperature condition when the outdoor temperature is lower than the reference temperature, and controls the angle of the at least one blade in a low-temperature operation region in response to the determination of the outdoor low-temperature condition. 9. The air conditioner according to claim 1 , wherein the air outlet is formed in a top surface of the cabinet, and the discharge directing cover is formed to cover the air outlet and is provided at an upper part of the cabinet to direct the heat-exchanged air discharged through the top surface of the cabinet through the air outlet. 10. The air conditioner according to claim 1 , wherein the cabinet includes a rear surface and a pair of side surfaces, the air inlet is formed in the rear surface and the pair of side surfaces, and wherein the air conditioner further comprises: a suction directing cover provided at the rear surface and the pair of side surfaces of the cabinet so as to direct the suctioned air suctioned through the rear surface and both side surfaces of the cabinet through the air inlet, and configured to surround the rear surface and the pair of side surfaces of the cabinet. 11. A method for controlling an air conditioner which includes a controller, a temperature sensor, a cabinet having an air inlet and an air outlet, a heat-exchanger accommodated in the cabinet to perform heat exchange, a compressor provided in the cabinet to compress a refrigerant, a discharge directing cover provided at an upper part of the air outlet and configured to direct flow of heat-exchanged air in the heat-exchanger, and at least one blade coupled to an outlet of the discharge directing cover, the method comprising: detecting, by the temperature sensor, an outdoor temperature; and by the controller: comparing the detected outdoor temperature with a reference temperature, and determining whether the detected outdoor temperature is lower than the reference temperature; when the detected outdoor temperature is lower than the reference temperature, detecting a high pressure of a high-pressure part and a low pressure of a low-pressure part of the refrigerant passing through the compressor; and controlling an angle of the at least one blade according to the detected low pressure, a compression ratio, and a current angle of the at least one blade so as to adjust an amount of the flow of the heat-exchanged air. 12. The method according to claim 11 , wherein the controlling the angle of the at least one blade includes: suctioning air through the air inlet, and adjusting the amount of the flow of heat-exchanged air by adjusting an amount of flow of the suctioned air through the heat-exchanger, so that an amount of heat exchange of the heat-exchanger is adjusted. 13. The method according to claim 11 , further comprising: when the detected high pressure is equal to or lower than a minimum high pressure, controlling, by the controller, the angle of the at least one blade with a full close output, so that the at least one blade is closed and the outlet of the discharge directing cover is closed. 14. The method according to claim 11 , further comprising: when the detected high pressure is higher than a minimum high pressure, controlling, by the controller, the angle of the at least one blade with an open output, so that the at least one blade is opened by a predetermined amount and the amount of the flow of the heat-exchanged air is adjusted. 15. The method according to claim 11 , further comprising: when the detected high pressure is higher than a minimum high pressure, controlling, by the controller, the angle of the at least one blade with an open output or a close output according to the detected low pressure, a compression rati