Integrated valve and heat pump cycle

What is claimed is: 1. An integrated valve for a heat pump cycle including a compressor that compresses a refrigerant received from an intake port and discharges the refrigerant from a discharge port, the compressor including an intermediate-pressure port through which an intermediate-pressure refrigerant flows from the heat pump cycle into the compressor and is merged with the refrigerant being in a compression process, the heat pump cycle including a check valve that prevents a backward flow of the refrigerant flowing into the intermediate-pressure port, the heat pump cycle being switchable between a gas injection cycle that is a two-stage compression cycle and a normal cycle that is a single-stage compression cycle, the integrated valve comprising: a body having a pressure reducing chamber in which a pressure of the refrigerant discharged from the compressor is reduced, and an on-off valve chamber in which a flow channel of the refrigerant flowing into the intermediate-pressure port through an intermediate-pressure refrigerant passage and through the check valve is opened or closed; a connecting member including a first valve element that is disposed in the pressure reducing chamber and forms a pressure reducing valve that reduces the pressure of the refrigerant discharged from the compressor, and a second valve element disposed in the on-off valve chamber and forming an on-off valve that adjusts a flow rate of the refrigerant flowing into the intermediate-pressure port, the first valve element and the second valve element being connected to each other such that the on-off valve is in a fully opened state when the pressure reducing valve is in a throttling state, the on-off valve is in an opened state when the pressure reducing valve is in an opened state, and the on-off valve is in a closed state when the pressure reducing valve is in a fully opened state; and a motor configured to drive the connecting member. 2. The integrated valve according to claim 1 , wherein the body has a first refrigerant outflow port through which the refrigerant reduced in pressure in the decompression chamber flows out toward a gas-liquid separation portion that separates the refrigerant into a gas-phase refrigerant and a liquid-phase refrigerant, and a flow channel portion located between the first refrigerant outflow port and a valve seat that is disposed in the pressure reducing chamber and forms the pressure reducing valve is next to the on-off valve chamber while a guide member that guides the connecting member is located between the flow channel portion and the on-off valve chamber. 3. The integrated valve according to claim 1 , wherein the body includes a gas-liquid separation portion that separates gas and liquid of the refrigerant flowing from the first refrigerant outflow port, a gas-phase side outflow port through which a gas-phase refrigerant separated by the gas-liquid separation portion is introduced into the on-off valve chamber, and a liquid-phase side outflow port from which the liquid-phase refrigerant separated by the gas-liquid separation portion flows out. 4. A heat pump cycle switchable between a gas injection cycle that is a two-stage compression cycle and a normal cycle that is a single-stage compression cycle, the heat pump cycle comprising: a compressor that compresses a refrigerant received from an intake port of the compressor and discharges the refrigerant from a discharge port of the compressor, the compressor including an intermediate-pressure port through which an intermediate-pressure refrigerant flows from the heat pump cycle into the compressor and is merged with the refrigerant being in a compression process; a check valve that prevents a backward flow of the refrigerant flowing into the intermediate-pressure port; an integrated valve that reduces a pressure of the refrigerant discharged from the discharge port; a gas-liquid separation portion that separates gas and liquid of the refrigerant which has been reduced in pressure by the integrated valve; and an intermediate-pressure refrigerant passage that guides a gas-phase refrigerant separated by the gas-liquid separation portion to the intermediate-pressure port, wherein the integrated valve comprises: a body having a pressure reducing chamber in which a pressure of the refrigerant discharged from the compressor is reduced, and an on-off valve chamber in which a flow channel of the refrigerant flowing into the intermediate-pressure port through the intermediate-pressure refrigerant passage and through the check valve is opened or closed; a connecting member including a first valve element that is disposed in the pressure reducing chamber and forms a pressure reducing valve that reduces the pressure of the refrigerant discharged from the compressor, and a second valve element disposed in the on-off valve chamber and forming an on-off valve that opens or closes a flow channel of the refrigerant flowing into the intermediate-pressure port, the first valve element and the second valve element being connected to each other such that the on-off valve is in a fully opened state when the pressure reducing valve is in a throttling state, the on-off valve is in an opened state when the pressure reducing valve is in an opened state, and the on-off valve is in a closed state when the pressure reducing valve is in a fully opened state; and a motor configured to drive the connecting member.