Refrigeration cycle apparatus

The invention claimed is: 1. A refrigeration cycle apparatus comprising: a main circuit in which piping is installed to allow refrigerant to flow in the main circuit; and a bypass circuit in which piping is installed to allow the refrigerant to flow in the bypass circuit, the bypass circuit being provided to branch off from the main circuit and join the main circuit, wherein the main circuit includes a compressor configured to compress the refrigerant, a first condenser configured to condense the refrigerant, a first refrigerant-to-refrigerant heat exchanger configured to cause heat exchange to be performed between the refrigerant which flows through high-temperature-side flow passages formed in the first refrigerant-to-refrigerant heat exchanger and the refrigerant which flows through low-temperature-side flow passages formed in the first refrigerant-to-refrigerant heat exchanger, the high-temperature-side flow passages forming part of the main circuit, a first expansion device configured to decompress the refrigerant, a first branching portion provided in a refrigerant passage that extends from the first refrigerant-to-refrigerant heat exchanger to the first expansion device, the first branching portion having at least three branches, a first evaporator configured to evaporate the refrigerant, a third branching portion provided in a refrigerant passage that extends from the first evaporator to a suction inlet of the compressor, the third branching portion having at least three branches, and a fourth branching portion provided in a refrigerant passage that extends from the third branching portion to a discharge outlet of the compressor, the fourth branching portion having at least three branches, wherein the bypass circuit forms a refrigerant passage that extends from the first branching portion to the third branching portion and the fourth branching portion, and includes a second expansion device provided in a refrigerant passage between the first branching portion and the low-temperature-side flow passages of the first refrigerant-to-refrigerant heat exchanger, and configured to decompress the refrigerant, the first refrigerant-to-refrigerant heat exchanger, the low-temperature-side flow passages in the first refrigerant-to-refrigerant heat exchanger forming part of the bypass circuit, and a second branching portion provided in a refrigerant flow passage between the low-temperature-side flow passages and the third branching portion and between the low-temperature-side flow passages and the fourth branching portion, and configured to bifurcate the refrigerant which flows out from the low-temperature-side flow passages of the first refrigerant-to-refrigerant heat exchanger, and wherein the second branching portion includes a liquid outflow pipe and a gas outflow pipe, the liquid outflow pipe defining a liquid outlet for the refrigerant which is below the gas outflow pipe, the gas outflow pipe defining a gas outlet for the refrigerant and being above the liquid outflow pipe, the liquid outlet of the second branching portion, which is defined by the liquid outflow pipe, including a pipe that connects the liquid outflow pipe and the third branching portion, the gas outlet of the second branching portion, which is defined by the gas outflow pipe, including a pipe that connects the gas outflow pipe and the fourth branching portion. 2. The refrigeration cycle apparatus of claim 1 , wherein; the second branching portion is a positive-displacement gas-liquid separator. 3. The refrigeration cycle apparatus of claim 1 , further comprising: a positive-displacement refrigerant tank between the third branching portion and the fourth branching portion. 4. The refrigeration cycle apparatus of claim 1 , wherein; the compressor includes two compressors, the two compressors are connected in series in a flow direction of the refrigerant and located downstream of the third branching portion in the flow direction of the refrigerant, and the fourth branching portion is between the two compressors located downstream of the third branching portion in the flow direction of the refrigerant. 5. The refrigeration cycle apparatus of claim 1 , wherein: the compressor includes an intermediate-pressure injection port that allows the refrigerant to be injected into a compressor chamber of the compressor, and the fourth branching portion is the intermediate-pressure injection port. 6. The refrigeration cycle apparatus of claim 1 , wherein: the first refrigerant-to-refrigerant heat exchanger includes a main body in which the high-temperature-side flow passages and the low-temperature-side flow passages alternate between stacked plates, the main body includes: a high-temperature-side flow passage inlet that is an inlet of the high-temperature-side flow passages that allows the refrigerant to flow thereinto, a high-temperature-side flow passage outlet that is an outlet of the high-temperature-side flow passages that allows the refrigerant to flow out therefrom toward the first branching portion, a low-temperature-side flow passage inlet that is an inlet of the low-temperature-side flow passages that allows the refrigerant which has branched off from the first branching portion and passed through the second expansion device to flow into the low-temperature-side flow passages, and a low-temperature-side flow passage outlet that is an outlet of the low-temperature-side flow passages that allows the refrigerant to flow out therefrom toward the second branching portion, and the high-temperature-side flow passage outlet and the low-temperature-side flow passage inlet are below the low-temperature-side flow passage outlet. 7. The refrigeration cycle apparatus of claim 1 , wherein: the gas outflow pipe of the second branching portion is connected to the fourth branching portion, and the liquid outflow pipe of the second branching portion is connected to the third branching portion. 8. The refrigeration cycle apparatus of claim 5 , wherein; the gas outflow pipe of the second branching portion is connected to the third branching portion, the liquid outflow pipe of the second branching portion is connected to the fourth branching portion, and a zeotropic refrigerant mixture of at least two kinds of refrigerant whose normal boiling points differ from each other by 1 degree C. or more is used as a working fluid. 9. The refrigeration cycle apparatus of claim 8 , further comprising: a second refrigerant-to-refrigerant heat exchanger having two refrigerant flow passages therein to allow heat exchange to be performed between refrigerant that flows through a flow passage extending from the first condenser of the main circuit to the first expansion device and refrigerant that flows through a flow passage extending from the liquid outflow pipe to the fourth branching portion. 10. The refrigeration cycle apparatus of claim 9 , further comprising: a flow switch to switch a flow direction of the refrigerant through a refrigerant flow passage; and a controller configured to control the flow switch to perform switching between a cooling operation and a heating operation, wherein in each of the cooling operation and the heating operation, the first refrigerant-to-refrigerant heat exchanger is located downstream of the second refrigerant-to-refrigerant heat exchanger in a flow direction of the refrigerant that flows through the high-temperature-side flow passages of the first refrigerant-to-refrigerant heat exchanger. 11. The refrigeration cycle apparatus of claim 1 , further comprising: a second condenser provided between the first expansion device and the first evaporator in the main circuit, where