Refrigeration cycle apparatus

The invention claimed is: 1. A refrigeration cycle apparatus, comprising: a hot water storage tank configured to store water; a heat source provided to the hot water storage tank and configured to heat water stored in the hot water storage tank; a refrigeration cycle circuit including an indoor heat exchanger, a heat-source heat exchanger, and a water heat exchanger provided to the hot water storage tank and configured to exchange heat with the water stored in the hot water storage tank; a first temperature sensor configured to measure a temperature in an installation environment of the heat-source heat exchanger; and a controller, the refrigeration cycle circuit including a compressor, a flow path switching valve configured to switch a flow path between a first flow path in which the heat-source heat exchanger is connected to a discharge port of the compressor and the water heat exchanger is connected to a suction port of the compressor and a second flow path in which the heat-source heat exchanger is connected to the suction port of the compressor and the water heat exchanger is connected to the discharge port of the compressor, a first pipe connected to the indoor heat exchanger, a first expansion valve provided to the first pipe, a second pipe connected to the water heat exchanger, a second expansion valve provided to the second pipe, a third pipe having a first end connected to the first pipe and the second pipe and a second end connected to the heat-source heat exchanger, and an open-close valve provided to the third pipe, wherein: the controller controls the refrigeration cycle apparatus to operate in an operation mode in which the indoor heat exchanger is used as a condenser, when a temperature measured by the first temperature sensor is higher than a first specified temperature, the operation mode is in a first operation state in which the heat-source heat exchanger is used as an evaporator, and when the temperature measured by the first temperature sensor is equal to or lower than the first specified temperature, the operation mode is in a second operation state in which an opening degree of the second expansion valve is set to a fully opening degree, an opening degree of the open-close valve is set to a fully closing degree, the water heat exchanger is used as an evaporator, and refrigerant flowing through the water heat exchanger is evaporated by heat generated by the heat source. 2. The refrigeration cycle apparatus of claim 1 , further comprising: a second temperature sensor configured to measure a temperature of the water stored in the hot water storage tank; and a third temperature sensor configured to measure a temperature of an indoor space, wherein the operation mode is a simultaneous heating and hot-water supply operation mode in which the indoor heat exchanger is used as a condenser to heat the indoor space and heat the water stored in the hot water storage tank, and wherein when a difference between a target temperature for heating the water by the water heat exchanger and a temperature measured by the second temperature sensor is equal to or higher than a second specified temperature or when a difference between a set temperature for heating the indoor space and a temperature measured by the third temperature sensor is equal to or higher than a third specified temperature, the simultaneous heating and hot-water supply operation mode is in a third operation state in which the heat-source heat exchanger is used as an evaporator, the water heat exchanger is used as a condenser, and the heat source heats the water stored in the hot water storage tank. 3. The refrigeration cycle apparatus of claim 1 , wherein a hot-water supply operation mode in which the water stored in the hot water storage tank is heated is in a first hot-water supply operation state in which the heat-source heat exchanger is used as an evaporator and the water heat exchanger is used as a condenser, when the temperature measured by the first temperature sensor is higher than the first specified temperature, and in a second hot-water supply operation state in which the heat source heats the water stored in the hot water storage tank, when the temperature measured by the first temperature sensor is equal to or lower than the first specified temperature. 4. The refrigeration cycle apparatus of claim 3 , further comprising a second temperature sensor configured to measure a temperature of the water stored in the hot water storage tank, wherein when a difference between a target temperature for heating the water by the water heat exchanger and a temperature measured by the second temperature sensor is equal to or higher than a second specified temperature, the hot-water supply operation mode is in a third hot-water supply operation state in which the heat-source heat exchanger is used as an evaporator, the water heat exchanger is used as a condenser, and the heat source heats the water stored in the hot water storage tank. 5. The refrigeration cycle apparatus of claim 1 , wherein: the heat source comprises an electric heater, and the first specified temperature corresponds to a coefficient of performance of the refrigeration cycle circuit that is in a range from 0.5 to 1.0 inclusive. 6. The refrigeration cycle apparatus of claim 1 , wherein: the heat source comprises a gas boiler, and the first specified temperature corresponds to a coefficient of performance of the refrigeration cycle circuit that is in a range from 1.5 to 3.0 inclusive.