Heat-pump equipment

The invention claimed is: 1. Heat-pump equipment comprising: a heat-pump apparatus of a variable operation capacity type including a compressor, a heat exchanger, an expansion valve, and an evaporator that are connected sequentially; a heat medium circuit connected with the heat-pump apparatus via the heat exchanger; a tank configured to store water in which heat is exchanged with the heat medium circuit; a room heater connected with the heat medium circuit and configured to reject heat; and a controller configured to control a rotation speed of the compressor, wherein the controller is further configured to: in response to receipt of a request for simultaneous hot water supply and room heating operation in which the water in the tank is heated and also the room heater is used, when a temperature difference between a sensed outdoor air temperature and a sensed indoor temperature reaches a predetermined threshold, control the rotation speed of the compressor to a maximum rotation speed during a hot water supply time, and when the temperature difference does not reach the predetermined threshold, set the hot water supply time to have an initial stage and a final stage, control the rotation speed of the compressor during the initial stage of the hot water supply time to the maximum rotation speed, and then control the rotation speed of the compressor during the final stage of the hot water supply time to a high-efficiency rotation speed, wherein the high-efficiency rotation speed is the rotation speed of the compressor which is lower than the maximum rotation speed and is same as the rotation speed of the compressor when a request for hot water supply operation is made when the room heater is not in use. 2. The heat-pump equipment of claim 1 , wherein the controller is further configured to: set, in response to the temperature difference being increased, a decreased value for the hot water supply time and an increased proportion of duration of the initial stage, in which the rotation speed of the compressor is set to the maximum rotation speed during the hot water supply time, the proportion of duration is a duration of the initial stage in proportion to the hot water supply time. 3. The heat-pump equipment of claim 1 , wherein the controller is further configured to when the sensed indoor temperature is at least a preset temperature or more, control the rotation speed of the compressor during the hot water supply time to be a combination comprising both the maximum rotation speed during the initial stage and a the high-efficiency rotation speed during the final stage, when the sensed indoor temperature is less than the preset temperature, control the rotation speed of the compressor during the hot water supply time to be the maximum rotation speed. 4. The heat-pump equipment of claim 1 , wherein the controller is further configured to: when the room heater is not used, control the rotation speed of the compressor during the hot water supply time to be the high-efficiency rotation speed, when the room heater is used and the sensed indoor temperature is lower than a preset temperature or the temperature difference is not smaller than the predetermined threshold, control the rotation speed of the compressor during the hot water supply time to be the maximum rotation speed, and when the room heater is used and the sensed indoor temperature is the preset temperature or higher and the temperature difference is smaller than the predetermined threshold, control the rotation speed of the compressor during the hot water supply time to be a combination comprising both the maximum rotation speed during the initial stage and the high-efficiency rotation speed during the final stage. 5. The heat-pump equipment of claim 1 , further comprising an extra-tank heat exchanger configured to exchange heat between the heat medium circuit and the water stored in the tank, the extra-tank heat exchanger being provided outside the tank.