Heat pump apparatus

The invention claimed is: 1. A heat pump apparatus comprising: a pressure reducing device configured to expand a heat medium flowing into the pressure reducing device to reduce a pressure of the heat medium, and then allow the heat medium to flow from the pressure reducing device; a heat-reception-side heat exchanger into which the heat medium flowing from the pressure reducing device flows, the heat-reception-side heat exchanger being configured to cause heat exchange to be performed between the heat medium and a heat source; a compressor configured to suck the heat medium flowing from the heat-reception-side heat exchanger, compress the heat medium to increase a pressure of the heat medium, and discharge the heat medium; a heat-storage heat exchanger into which the heat medium discharged from the compressor flows, the heat-storage heat exchanger being configured to cause heat exchange to be performed between the heat medium and a heat storage medium, the heat storage medium is stored in a heat storage tank, wherein when the heat-storage heat exchanger performs heat exchange between the heat medium and the heat storage medium, heat is stored in the heat storage medium in the heat storage tank; a use-side heat exchanger into which the heat medium flows from the heat-storage heat exchanger, the use-side heat exchanger being configured to cause heat exchange to be performed between the heat medium and a heat usage medium, and then allow the heat medium to flow from the use-side heat exchanger to the pressure reducing device; a flow-passage switching device configured to switch a flow passage for the heat medium discharged from the heat-storage heat exchanger to a first flow passage or a second flow passage, the first flow passage extending through the pressure reducing device, the heat-reception-side heat exchanger, the compressor and the heat-storage heat exchanger without extending through the use-side heat exchanger, and the second flow passage extending through the pressure reducing device, the heat-reception-side heat exchanger, the compressor, the heat-storage heat exchanger and the use-side heat exchanger; and a first temperature detector configured to detect a first temperature which is a temperature of the heat medium after passing through the heat-storage heat exchanger, wherein the flow-passage switching device switches the flow passage from the first flow passage to the second flow passage, when the first temperature becomes higher than or equal to a usage temperature of the heat usage medium. 2. The heat pump apparatus of claim 1 , wherein the flow-passage switching device is provided between the heat-storage heat exchanger and the use-side heat exchanger, and the first temperature detector is provided between the heat-storage heat exchanger and the flow-passage switching device. 3. The heat pump apparatus of claim 1 , further comprising: an input device to which a start command to start usage of the use-side heat exchanger is input, wherein the flow-passage switching device switches the flow passage from the first flow passage to the second flow passage in response to the start command. 4. The heat pump apparatus of claim 1 , further comprising: a second temperature detector configured to detect a second temperature that is a temperature of the heat medium discharged from the compressor; and a third temperature detector configured to detect a third temperature that is a temperature of the heat medium flowing from the use-side heat exchanger, wherein when the flow-passage switching device switches the flow passage to the first flow passage, a rotation speed of the compressor or an opening degree of the pressure reducing device is controlled based on the second temperature, and when the flow-passage switching device switches the flow passage to the second flow passage, the rotation speed of the compressor is controlled based on the second temperature, and the opening degree of the pressure reducing device is controlled based on the third temperature. 5. The heat pump apparatus of claim 1 , wherein the heat-storage heat exchanger includes a heat storage medium flow passage through which the heat storage medium flows, the use-side heat exchanger includes a heat-use-medium flow passage through which the heat usage medium flows, the heat pump apparatus further comprises a first circulation pump connected to the heat storage medium flow passage, and a second circulation pump connected to the heat-use-medium flow passage, and when the flow-passage switching device switches the flow passage to the second flow passage, the first circulation pump and the second circulation pump are controlled such that a ratio between a flow rate of the heat storage medium and a flow rate of the heat usage medium varies. 6. The heat pump apparatus of claim 1 , wherein the heat-storage heat exchanger is provided in the heat storage tank which contains the heat storage medium, and the heat storage medium contains a latent heat storage material that is melted by heat that enters the heat storage medium via the heat-storage heat exchanger. 7. The heat pump apparatus of claim 6 , wherein the latent heat storage material contains sodium acetate trihydrate. 8. The heat pump apparatus of claim 6 , wherein the heat usage medium contains a latent heat storage material that is melted by heat that enters the heat usage medium via the use-side heat exchanger, and the latent heat storage material contained in the heat usage medium has a melting point that is lower than a melting point of the latent heat storage material contained in the heat storage medium.