Refrigeration cycle device

What is claimed is: 1. A refrigeration cycle device for an air-conditioning apparatus that performs a dehumidification operation in which an air blown to a space to be air-conditioned is cooled and dehumidified and the dehumidified blown air is heated, the refrigeration cycle device comprising: a compressor that compresses and discharges a refrigerant; a radiator in which the refrigerant discharged from the compressor radiates a heat; an outside heat exchanger in which the refrigerant flowing out of the radiator exchanges heat with an outside air; an evaporator in which the refrigerant flowing out of the outside heat exchanger is evaporated via heat exchange between the refrigerant flowing out of the outside heat exchanger and the blown air before passing through the radiator; a first refrigerant passage guiding the refrigerant flowing out of the radiator to an inlet side of the outside heat exchanger; a first throttling device having two refrigerant ports to or from which the refrigerant flows in or out, the first throttling device being disposed in the first refrigerant passage and being capable of changing an open area of the first refrigerant passage; a second refrigerant passage guiding the refrigerant flowing out of the outside heat exchanger to an intake side of the compressor; a first switching device having two refrigerant ports to or from which the refrigerant flows in or out, the first switching device being disposed in the second refrigerant passage and selectively stopping a flow of the refrigerant in the second refrigerant passage; a third refrigerant passage branching from the second refrigerant passage and joining to the second refrigerant passage, the third refrigerant passage guiding the refrigerant flowing out of the outside heat exchanger to the intake side of the compressor through the evaporator; a second throttling device having two refrigerant ports to or from which the refrigerant flows in or out, the second throttling device being disposed between the outside heat exchanger and the evaporator in the third refrigerant passage and being capable of changing an open area of the third refrigerant passage; a bypass passage branching from the first refrigerant passage and joining to the third refrigerant passage, the bypass passage guiding the refrigerant flowing between the radiator and the first throttling device to a part of the third refrigerant passage between the outside heat exchanger and the second throttling device; a second switching device having two refrigerant ports to or from which the refrigerant flows in or out, the second switching device being disposed in the bypass passage and selectively stopping the flow of the refrigerant in the bypass passage; and a flow channel coupling member having three refrigerant ports to or from which the refrigerant flows in or out, the flow channel coupling member being provided in at least one of a branching portion and a joining portion of the third refrigerant passage and a branching portion and a joining portion of the bypass passage, wherein one of the three refrigerant ports of the flow channel coupling member is directly connected to one of the two refrigerant ports of the first switching device or one of the two refrigerant ports of the second switching device, the refrigeration cycle device further comprising a sealing mechanism provided in a connecting portion between the refrigerant port of the flow channel coupling member and the refrigerant port of the first switching device or in a connecting portion between the refrigerant port of the flow channel coupling member and the refrigerant port of the second switching device, the sealing mechanism preventing a refrigerant leakage, and the flow channel coupling member has a portion that is different in position from the sealing mechanism and is fixed to the first switching device or the second switching device. 2. The refrigeration cycle device according to claim 1 , wherein another of the three refrigerant ports of the flow channel coupling member is connected directly with the refrigerant inlet port of at least one of the first throttling device and the second throttling device. 3. The refrigeration cycle device according to claim 1 , wherein the flow channel coupling member includes a first flow channel coupling member provided in the branching portion of the third refrigerant passage, and a second flow channel coupling member provided in the joining portion of the bypass passage, the refrigeration cycle device further comprising: a first piping member having a refrigerant passage between the first flow channel coupling member and the second flow channel coupling member in the third refrigerant passage; a first fixing member fixing one end of the first piping member to the first flow channel coupling member; and a second fixing member fixing the other end of the first piping member to the second flow channel coupling member. 4. The refrigeration cycle device according to claim 3 , wherein at least one of the first fixing member and the second fixing member includes a pipe insertion hole into which the first piping member is inserted, and a gap for releasing ice formed by freezing of moisture in an atmospheric air to an atmosphere is provided between an inner peripheral surface of the pipe insertion hole and an outer peripheral surface of the first piping member. 5. The refrigeration cycle device according to claim 3 , wherein the flow channel coupling member includes a third flow channel coupling member provided in the joining portion of the third refrigerant passage, the refrigeration cycle device further comprising: an accumulator disposed between the joining portion of the third refrigerant passage to the second refrigerant passage and the compressor, the accumulator separating the refrigerant into gas and liquid and accumulating therein an excessive refrigerant within a cycle; a second piping member having a refrigerant passage between the joining portion of the third refrigerant passage to the second refrigerant passage and the accumulator; a third fixing member fixing one end of the second piping member to the third flow channel coupling member; and a fourth fixing member fixing the other end of the second piping member to the accumulator. 6. The refrigeration cycle device according to claim 3 , comprising a check valve disposed between the first flow channel coupling member and the second flow channel coupling member, the check valve prohibiting a flow of the refrigerant from the first flow channel coupling member to the second flow channel coupling member, wherein one of the three refrigerant ports of the first flow channel coupling member, which is connected to the check valve, is positioned apart and downward by 100 mm or more from the check valve in a direction of a gravitational force. 7. The refrigeration cycle device according to claim 3 , wherein the flow channel coupling member includes a fourth flow channel coupling member provided in the branching portion of the bypass passage, and the fourth flow channel coupling member includes a refrigerant flow channel extending horizontally from the fourth flow channel coupling member toward the first throttling device and a refrigerant flow channel extending horizontally from the fourth flow channel coupling member toward the second switching device. 8. The refrigeration cycle device according to claim 3 , wherein the flow channel coupling member includes a fourth flow channel coupling member provided in the branching portion of the bypass passage, and the fourth flow channel coupling member includes a first refrigerant flow channel leading from a refrigerant inlet port connected to the radiator to a refrigerant outlet port connected to th