Air-conditioning apparatus with simultaneous heating and cooling operation

The invention claimed is: 1. An air-conditioning apparatus capable of cooling and heating mixed operation, comprising: at least one heat-source-side unit including a compressor and an outdoor heat exchanger and that is connected to a plurality of load-side units each including an expansion device and an indoor heat exchanger, the plurality of load-side units being connected to the heat-source-side unit in parallel; an opening and closing valve mounted in the heat-source-side unit and connected to a pipe in which a refrigerant flows when the outdoor heat exchanger functions as an evaporator and does not flow when the outdoor heat exchanger functions as a condenser to adjust a flow of the refrigerant from the load-side units to the outdoor heat exchanger; a heat-source-side expansion device mounted in the heat-source-side unit and provided in parallel with the opening and closing valve; and a controller configured to control at least opening and closing of the opening and closing valve and an opening degree of the heat-source-side expansion device, wherein the controller, in an operation in which the outdoor heat exchanger functions as the evaporator, in a heating main operation mode in which a heating load is dominant in the cooling and heating mixed operation with the plurality of load-side units and under a condition where a liquid pipe temperature of the load-side unit that is performing a cooling operation is within a temperature range of antifreezing control, closes the opening and closing valve, and controls the opening degree of the heat-source-side expansion device according to an evaporating temperature of the load-side unit requesting cooling so as to adjust the evaporating temperature to be within a predetermined range. 2. The air-conditioning apparatus of claim 1 , wherein the controller determines the opening degree of the heat-source-side expansion device by using at least one of a temperature and a pressure of a refrigerant joined after flowing out of each of the load-side units. 3. The air-conditioning apparatus of claim 1 , wherein a refrigerant control unit configured to switch a flow of the refrigerant in accordance with operating states of the load-side units is interposed between the heat-source-side unit and the load-side units. 4. The air-conditioning apparatus of claim 1 , wherein the heat-source-side unit further comprises a plurality of pipes that connect a high-pressure pipe through which the refrigerant flows out and a low-pressure pipe through which the refrigerant flows in, and that allows the refrigerant flowing through the high-pressure pipe and the low-pressure pipe to flow in a fixed direction, and the pipe to which the opening and closing valve is connected to is one of the plurality of pipes. 5. The air-conditioning apparatus of claim 1 , wherein the heat-source-side unit further comprises a low-pressure pipe fluidly connected between the four-way valve of the heat-source-side unit and the plurality of load-side units, a high-pressure pipe fluidly connected between the outdoor heat exchanger of the heat-source-side unit and the plurality of load-side units, a first connecting pipe that fluidly connects the low-pressure pipe to the high-pressure pipe and that includes a first check valve that permits flow towards the high-pressure pipe, a second connecting pipe that fluidly connects the low-pressure pipe to the high pressure pipe and that includes a second check valve that permits flow towards the high-pressure pipe, wherein the low-pressure pipe includes a third check valve that permits flow towards the four-way valve of the heat-source-side unit, the high-pressure pipe includes a fourth check valve that permits flow towards the plurality of load-side units, and the opening and closing valve is serially connected to the second connecting pipe. 6. The air-conditioning apparatus of claim 5 , wherein the third check valve of the low-pressure pipe is located between the first connecting pipe and the second connecting pipe, and the fourth check valve of the high-pressure pipe is located between the first connecting pipe and the second connecting pipe.