Air conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus comprising: an outdoor unit equipped with a compressor, a heat exchanger, and a liquid reservoir; a plurality of indoor units each equipped with an expansion valve and a heat exchanger, the compressor, the heat exchanger of the outdoor unit, the liquid reservoir, the expansion valve, and the heat exchangers of each of the plurality of indoor units being connected by refrigerant extension pipes to constitute a refrigerant circuit; and a control unit, wherein the control unit in an operation state in which the heat exchanger of the each of the plurality of indoor units functions as a condenser, performs initial learning for a relationship between an operating state of the plurality of indoor units and a presence or absence of an excessive liquid refrigerant in the liquid reservoir, and then in an operation state in which a liquid refrigerant is stored in the liquid reservoir as an excessive liquid refrigerant, performs a special operation to control at least one of the plurality of indoor units in the refrigerant circuit to be in the operating state of the initial learning in which excessive liquid refrigerant is present in the liquid reservoir in the refrigerant circuit, and determines that leakage of a refrigerant from the refrigerant circuit has occurred when the excessive liquid refrigerant in the liquid reservoir is less than a reference amount, the reference amount being an amount a rest of the excessive liquid refrigerant which remains in the liquid reservoir after, by the special operation, a part of the excessive liquid refrigerant stored in the liquid reservoir is moved into and stored in the heat exchanger of at least one of the plurality of indoor units that has been stopped and that functions as a condenser. 2. The air-conditioning apparatus of claim 1 , wherein the control unit determines that leakage of the refrigerant has occurred using a degree of superheat of the refrigerant at an outlet of the liquid reservoir or a discharge temperature of the refrigerant discharged from the compressor. 3. The air-conditioning apparatus of claim 1 , wherein the control unit performs the initial learning by sequentially stopping the heat exchanger of each of the plurality of indoor units, measuring the degree of superheat of the refrigerant at the outlet of the liquid reservoir after a predetermined time has elapsed, and obtaining whether there is any excessive liquid refrigerant in the liquid reservoir. 4. The air-conditioning apparatus of claim 3 , wherein the operating state of the each of the plurality of indoor units in the initial learning is a total capacity of the stopped heat exchanger of the at least one of the plurality of indoor units which functions as a condenser. 5. The air-conditioning apparatus of claim 3 , wherein the operating state of the each of the plurality of indoor units in the initial learning is a degree of supercooling at an outlet side of the each of the plurality of indoor units. 6. The air-conditioning apparatus of claim 1 , wherein the control unit operates a fan disposed in a vicinity of the stopped heat exchanger when the excessive liquid refrigerant stored in the liquid reservoir is moved to and stored in the heat exchanger of the at least one of the plurality of indoor units that has been stopped and that functions as a condenser. 7. The air-conditioning apparatus of claim 1 , wherein the control unit performs the special operation in which the excessive liquid refrigerant stored in the liquid reservoir is moved to the indoor units in ascending order of capacity of the heat exchangers thereof which contribute to heat exchange. 8. The air-conditioning apparatus of claim 1 , wherein the control unit performs the special operation in which the excessive liquid refrigerant stored in the liquid reservoir is moved to the indoor units in ascending order of ability of heat exchange. 9. The air-conditioning apparatus of claim 1 , wherein each of the plurality of indoor units is provided in each of a plurality of areas to be air-conditioned, and the control unit performs the special operation in which the excessive liquid refrigerant stored in the liquid reservoir is moved and distributed to the plurality of indoor units disposed in different areas to be air-conditioned. 10. The air-conditioning apparatus of claim 7 , further comprising a timer, wherein the control unit performs the special operation with the timer at regular time intervals. 11. The air-conditioning apparatus of claim 1 , wherein the liquid reservoir is an accumulator. 12. The air-conditioning apparatus of claim 8 , further comprising a timer, wherein the control unit performs the special operation with the timer at regular time intervals. 13. The air-conditioning apparatus of claim 9 , further comprising a timer, wherein the control unit performs the special operation with the timer at regular time intervals. 14. The air-conditioning apparatus of claim 1 , wherein on the basis of the operating state of the each of the plurality of indoor units when the excessive liquid refrigerant is determined to be absent in the liquid reservoir as obtained by the initial learning, refrigerant leak detection on the basis of excessive liquid refrigerant in the liquid reservoir is omitted to prevent false detection.