Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus that forms a refrigerant circuit connecting a compressor; at least two heat source side heat exchangers connected in parallel; a plurality of expansion devices; and refrigerant passages of a plurality of heat exchangers related to heat transfer medium that exchange heat between a heat source side refrigerant and a heat transfer medium, the refrigerant circuit circulating the heat source side refrigerant, wherein the refrigerant circuit includes a bypass pipe that connects a point prior to and a point after the at least two heat source side heat exchangers to bypass the heat source side heat exchangers, a heat source side refrigerant flow control device configured to close either the passage of the heat source side refrigerant flowing through the heat source side heat exchangers or the passage of the refrigerant flowing through the bypass pipe while opening the other passage simultaneously, a first refrigerant flow blocking device disposed at an inlet of at least one of the heat source side heat exchangers, a second refrigerant flow blocking device disposed at an outlet of the at least one of the heat source side heat exchangers, an excess refrigerant recovery pipe connected between the inlet of the at least one of the heat source side heat exchangers and the first refrigerant flow blocking device or between the outlet of the at least one of the heat source side heat exchangers and the second refrigerant flow blocking device, to a passage connected to a suction side of the compressor, and an excess refrigerant recovery device disposed in the excess refrigerant recovery pipe. 2. The air-conditioning apparatus of claim 1 , wherein the majority of the heat source side refrigerant flowing through the refrigerant circuit is allowed to pass through the heat source side refrigerant flow control device. 3. The air-conditioning apparatus of claim 1 , wherein the heat source side refrigerant flow control device is a three-way flow control device or a plurality of two-way flow control devices. 4. The air-conditioning apparatus of claim 1 , further comprising: a heat source side air-sending device that supplies air to the heat source side heat exchanger, wherein control of the rotation speed of the heat source side air-sending device and control of the heat source side refrigerant flow rate using the heat source side refrigerant flow control device are jointly performed. 5. The air-conditioning apparatus of claim 4 , wherein when a necessary amount of heat to be exchanged in the heat source side heat exchanger is greater than a predetermined value, the control of the rotation speed of the heat source side air-sending device is performed preferentially over the control of the heat source side refrigerant flow rate using the heat source side refrigerant flow control device, and when the necessary amount of heat to be exchanged in the heat source side heat exchanger is smaller than the predetermined value, the control of heat source side refrigerant flow rate using the heat source side refrigerant flow control device is performed preferentially over the control of the rotation speed of the heat source side air-sending device. 6. The air-conditioning apparatus of claim 1 , wherein the apparatus has: a first heat exchange mode in which heat is exchanged using all of the heat source side heat exchangers and substantially none of the heat source side refrigerant is allowed to pass through the bypass pipe; a second heat exchange mode in which heat is exchanged using at least one of the heat source side heat exchangers and substantially none of the heat source side refrigerant is allowed to pass through the bypass pipe; and a third heat exchange mode in which heat is exchanged using at least one of the heat source side heat exchangers and the ratio of the flow rate of the heat source side refrigerant flowing through at least one of the heat source side heat exchangers to that of the heat source side refrigerant flowing through the bypass pipe is controlled, and the refrigerant flow blocking devices are opened and the excess refrigerant recovery device is closed in the first heat exchange mode. 7. The air-conditioning apparatus of claim 1 , wherein the apparatus has: a first heat exchange mode in which heat is exchanged using all of the heat source side heat exchangers and substantially none of the heat source side refrigerant is allowed to pass through the bypass pipe; a second heat exchange mode in which heat is exchanged using at least one of the heat source side heat exchangers and substantially none of the heat source side refrigerant is allowed to pass through the bypass pipe; and a third heat exchange mode in which heat is exchanged using at least one of the heat source side heat exchangers and the ratio of the flow rate of the heat source side refrigerant flowing through at least one of the heat source side heat exchangers to that of the heat source side refrigerant flowing through the bypass pipe is controlled, and the refrigerant flow blocking devices are closed and the excess refrigerant recovery device is opened in the second heat exchange mode and the third heat exchange mode. 8. The air-conditioning apparatus of claim 1 , wherein the capacities of the heat source side heat exchangers are substantially the same. 9. The air-conditioning apparatus of claim 1 , further comprising: a plurality of heat transfer medium delivery devices; and a plurality of use side heat exchangers that exchange heat between the heat transfer medium and air in respective conditioned spaces, wherein the heat transfer medium delivery devices and the use side heat exchangers are connected to heat transfer medium passages of the heat exchangers related to heat transfer medium to form a plurality of heat medium cycles, a use side flow control device that controls the amount of the heat transfer medium circulated in the use side heat exchanger is disposed on the inlet side or an outlet side of each of the use side heat exchangers, and a heat transfer medium flow switching device switching passages of the heat transfer medium is disposed on each of the inlet sides and the outlet sides of the use side heat exchangers. 10. The air-conditioning apparatus of claim 9 , wherein the compressor and the heat source side heat exchanger are housed in an outdoor unit, the expansion devices, the heat exchangers related to heat transfer medium, and the pumps are housed in a heat transfer medium relay unit, each use side heat exchanger is housed in an indoor unit, and the indoor units, the heat transfer medium relay unit, and the outdoor unit are separated from one another such that they are allowed to be arranged at separate positions. 11. The air-conditioning apparatus of claim 10 , wherein the outdoor unit is connected to the heat transfer medium relay unit through at least two refrigerant pipes and the heat transfer medium relay unit is connected to each indoor unit through two heat transfer medium pipes. 12. The air-conditioning apparatus of claim 1 , wherein the heat source side refrigerant flow control device is configured to control the ratio of the flow rate of the heat source side refrigerant flowing through the heat source side heat exchanger and the flow rate of the refrigerant flowing through the bypass pipe.