Outdoor heat exchanger and air conditioner comprising the same

What is claimed is: 1. An outdoor heat exchanger included in an air conditioner and configured to function as a condenser in an air cooling operation and as an evaporator in an air heating operation, the outdoor heat exchanger comprising: a first header pipe configured to have a refrigerant compressed by a compressor to flow therein in the air cooling operation; a first heat exchange unit coupled to the first header pipe to receive the refrigerant from the first header pipe and configured to thermally exchange the refrigerant with air; a bypass pipe configured to have the refrigerant thermally exchanged in the first heat exchange unit to flow therein in the air cooling operation; a first distribution pipe coupled to the bypass pipe; a second header pipe configured to have the refrigerant passing through the bypass pipe to flow therein in the air cooling operation; a second heat exchange unit coupled to the second header pipe to receive the refrigerant from the second header pipe and configured to thermally exchange the refrigerant with air; a second distribution pipe configured to have the refrigerant thermally exchanged in the second heat exchange unit to flow therein in the air cooling operation; a first hot gas pipe configured to couple the compressor and the first distribution pipe; a first hot gas control valve disposed in the first hot gas pipe to control a flow of the refrigerant; a second hot gas pipe configured to couple the compressor and the second distribution pipe; a second hot gas control valve disposed in the second hot gas pipe to control a flow of the refrigerant; a bypass valve disposed in the bypass pipe configured to open or close to control the flow of the refrigerant; and a first junction point, wherein a downstream end of the first header pipe is coupled to an upstream end of the second header pipe, wherein an upstream end of the first header pipe is connected to the compressor, wherein the first junction point connects a downstream end of the bypass pipe, the downstream end of the first header pipe, and the upstream end of the second header pipe, and further comprising a check valve disposed in the first header pipe to prevent the refrigerant from flowing from the first header pipe to the second header pipe in the air cooling operation; a first expansion valve disposed in the first distribution pipe and configured to control a degree of opening of the first distribution pipe; and a second expansion valve disposed in the second distribution pipe and configured to control a degree of opening of the second distribution pipe. 2. The outdoor heat exchanger of claim 1 , wherein the second heat exchange unit is disposed beneath the first heat exchange unit. 3. The outdoor heat exchanger of claim 1 , wherein the bypass valve is opened in the air cooling operation. 4. The outdoor heat exchanger of claim 3 , wherein: the second hot gas control valve is opened in a partial defrosting operation, the bypass valve is closed in the partial defrosting operation, and the refrigerant compressed by the compressor flows in the second heat exchange unit in the partial defrosting operation. 5. The outdoor heat exchanger of claim 4 , wherein the first expansion valve is closed in the air cooling operation, the second expansion valve is opened in the air cooling operation, and the second expansion valve is closed in the partial defrosting operation. 6. An air conditioner comprising: a compressor; an indoor heat exchanger; an outdoor heat exchanger; and a 4-way valve guiding a refrigerant compressed by the compressor to the outdoor heat exchanger in an air cooling operation and in a defrosting operation, and guiding the compressed refrigerant to the indoor heat exchanger in an air heating operation, wherein the outdoor heat exchanger comprises, a first header pipe coupled to the compressor, a first heat exchange unit comprising a first end coupled to the first header pipe and configured to thermally exchange the refrigerant with air, a first distribution pipe coupled to a second end of the first heat exchange unit, a bypass pipe coupled to the first distribution pipe, a second header pipe coupled to the first header pipe and the bypass pipe, a second heat exchange unit comprising a first end coupled to the second header pipe and configured to thermally exchange the refrigerant with air, a second distribution pipe coupled to a second end of the second heat exchange unit, a first hot gas pipe configured to couple the compressor and the first distribution pipe; a first hot gas control valve disposed in the first hot gas pipe to control a flow of the refrigerant; a second hot gas pipe configured to couple the compressor and the second distribution pipe, a second hot gas control valve disposed in the second hot gas pipe and configured to open or close to control a flow of the refrigerant, a bypass valve disposed in the bypass pipe and configured to open or close to control the flow of the refrigerant, and a first junction point, wherein an upstream end of the first header pipe is connected to the compressor, wherein the first junction point, connects a downstream end of the bypass pipe, a downstream end of the first header pipe, and a downstream end of the second header pipe, and further comprising a check valve disposed in the first header pipe to prevent the refrigerant from flowing from the first header pipe to the second header pipe in the air cooling operation; a first expansion valve disposed in the first distribution pipe and configured to control a degree of opening of the first distribution pipe; and a second expansion valve disposed in the second distribution pipe and configured to control a degree of opening of the second distribution pipe. 7. The air conditioner of claim 6 , wherein the bypass valve is opened in the air cooling operation. 8. The air conditioner of claim 7 , wherein: the second hot gas control valve is opened in the defrosting operation, the bypass valve is closed in the defrosting operation, and the refrigerant compressed by the compressor flows in the second heat exchange unit in the defrosting operation. 9. The outdoor heat exchanger of claim 4 , wherein the first hot gas control valve is closed in the air cooling operation and the air heating operation, and the first gas control valve is opened in a special defrosting operation. 10. The outdoor heat exchanger of claim 1 , further comprising: a first distributor coupled to the first distribution pipe; and a second junction point that connects an upstream end of the first distribution pipe, a downstream end of the first distributor, and an upstream end of the bypass pipe. 11. The air conditioner of claim 6 , further comprising: a first distributor coupled to the first distribution pipe; and a second junction point that connects an upstream end of the first distribution pipe, a downstream end of the first distributor, and an upstream end of the bypass pipe.