Outdoor unit of an air conditioning system, air conditioning system, and control method thereof

The invention claimed is: 1. An outdoor unit of an air conditioning system, the outdoor unit comprising a four-way valve, an outdoor heat exchanger, a throttling element having at least one valve, a second electromagnetic valve, a third electromagnetic valve, and a compressor, wherein: an exhaust end of the compressor is connected with an A end of the four-way valve; a B end of the four-way valve is connected with one end of the outdoor heat exchanger, and another end of the outdoor heat exchanger is connected with a first connecting pipe through the throttling element; a C end of the four-way valve is connected with a suction end of the compressor; a D end of the four-way valve is connected with a second connecting pipe; the A end of the four-way valve is connected with a third connecting pipe through the second electromagnetic valve, the third electromagnetic valve is connected between the third connecting pipe and the second connecting pipe; and one end of the second electromagnetic valve is connected with the A end of the four-way valve and the other end of the second electromagnetic valve is connected between the third electromagnetic valve and the third connecting pipe. 2. The outdoor unit of the air conditioning system according to claim 1 , wherein an oil separator is connected between the exhaust end of the compressor, and the A end of the four-way valve. 3. The outdoor unit of the air conditioning system according to claim 2 , wherein the oil separator is connected with the suction end of the compressor through a first electromagnetic valve and a capillary. 4. The outdoor unit of the air conditioning system according to claim 2 , wherein a check valve is connected between the oil separator and the A end of the four-way valve. 5. The outdoor unit of the air conditioning system according to claim 1 , wherein a vapor-liquid separator is connected between the C end of the four-way valve, and the suction end of the compressor. 6. The outdoor unit of the air conditioning system according to claim 1 , wherein a liquid-side stop valve is arranged on the first connecting pipe, a gas-side stop valve is arranged on the second connecting pipe, and a discharge line valve is arranged on the third connecting pipe. 7. The outdoor unit of the air conditioning system according to claim 1 , wherein the throttling element is an outdoor expansion valve. 8. An air conditioning system comprising the outdoor unit according to claim 1 , wherein the air conditioning system further comprises at least one indoor unit, and the at least one indoor unit is connected with the outdoor unit through the first connecting pipe, the second connecting pipe, and the third connecting pipe. 9. The air conditioning system according to claim 8 , wherein the at least one indoor unit comprises a first indoor heat exchanger, a first electronic expansion valve, a second indoor heat exchanger, and a second electronic expansion valve; and one end of the first indoor heat exchanger is connected with the third connecting pipe, and another end of the first indoor heat exchanger is connected with the first connecting pipe through the first electronic expansion valve; and one end of the second indoor heat exchanger is connected with the second connecting pipe, and another end of the second indoor heat exchanger is connected with the third connecting pipe through the second electronic expansion valve. 10. The air conditioning system according to claim 9 , wherein the air conditioning system comprises at least two indoor units. 11. A method of controlling the outdoor unit of the air conditioning system according to claim 1 , the method controlling the outdoor unit of the air conditioning system to perform at least one subset of operations comprising: when the outdoor unit of the air conditioning system is under a fully-refrigerating condition, connecting the A end and the B end of the four-way valve, and connecting the C end and the D end of the four-way valve; closing the second electromagnetic valve, and opening the third electromagnetic valve; and fully-opening the throttling element; so that exhaust refrigerant from the exhaust end of the compressor is condensed by the outdoor heat exchanger, and exhaust refrigerant flows to the first connecting pipe through the throttling element, and refrigerant flowed through the second connecting pipe and the third connecting pipe enters the suction end of the compressor through the D end and the C end of the four-way valve; or when the outdoor unit of the air conditioning system is under a fully-heating condition, connecting the A end and the D end of the four-way valve, and connecting the B end and the C end of the four-way valve; opening the second electromagnetic valve, and closing the third electromagnetic valve; and enabling the throttling element to throttle for lower pressure; so that one branch of exhaust refrigerant from the exhaust end of the compressor flows out of the A end and the D end of the four-way valve to the second connecting pipe, and another branch of the exhaust refrigerant flows out of the second electromagnetic valve to the third connecting pipe; and refrigerant flowed through the first connecting pipe then flows through the throttling element, the outdoor heat exchanger, and the B end and C end of the four-way valve, and enters the suction end of the compressor; or when the outdoor unit of the air conditioning system is under at least one of a normally-heat-recovery condition, a normally-heat-recovery and dehumidifying condition, or a heat-recovery and dehumidifying plus refrigerating hybrid condition, connecting the A end and the B end of the four-way valve, and connecting the C end and the D end of the four-way valve; opening the second electromagnetic valve, and closing the third electromagnetic valve; and fully-opening the throttling element; so that one branch of exhaust refrigerant from the exhaust end of the compressor flows out of the second electromagnetic valve to the third connecting pipe, and another branch of the exhaust refrigerant flows out of the A end and the B end of the four-way valve to the outdoor heat exchanger for condensation, flows out of the throttling element to the first connecting pipe, and refrigerant flowed through the second connecting pipe enters the suction end of the compressor through the D end and the C end of the four-way valve; or when the outdoor unit of the air conditioning system is under a normally-heat-recovery and dehumidifying plus heating hybrid condition, connecting the A end and the B end of the four-way valve, and connecting the C end and the D end of the four-way valve; opening the second electromagnetic valve, and closing the third electromagnetic valve; and fully-closing the throttling element; so that exhaust refrigerant from the exhaust end of the compressor flows through the second electromagnetic valve, and flows to the third connecting pipe, and refrigerant flowed through the second connecting pipe enters the suction end of the compressor. 12. A method of controlling the air conditioning system according to claim 9 , the method controlling the air conditioning system to perform at least one subset of operations comprising: when the outdoor unit of the air conditioning system is under a fully-refrigerating condition, connecting the A end and the B end of the four-way valve, and connecting the C end and the D end of the four-way valve; closing the second electromagnetic valve, and opening the third electromagnetic valve; fully-opening the throttling element; and enabling first electronic expansion valves and second electronic expansion valves of the respective indoor units to throttle for lower pressure; so that exh