Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus, comprising: a refrigerant circuit including, an outdoor unit having a compressor and an outdoor heat exchanger, and a plurality of indoor units each having an expansion valve capable of varying an opening degree and an indoor heat exchanger, the refrigerant circuit connecting the outdoor unit and the plurality of indoor units with refrigerant pipes; a controller configured to control operations of the compressor, the expansion valve, and an indoor fan provided in each of the indoor units; an opening and closing valve configured to open and close a refrigerant passage; and an expansion mechanism having porous bodies capable of passing a refrigerant therethrough, wherein the opening and closing valve and the expansion mechanism are connected in series, while the serially connected opening and closing valve and the expansion mechanism are connected in parallel with the expansion valve, in a heating mode in which the refrigerant of high-temperature from the compressor is supplied to the indoor heat exchanger, in a case where the controller stops an operation of at least one of the plurality of indoor units and causes at least one of the indoor units to operate, the controller closes the expansion valve and opens the opening and closing valve of the stopped indoor unit, respectively, and the controller opens the opening and closing valve when the opening degree of the expansion valve is greater than a fully-closed state and is smaller than a specific opening degree, and closes the opening and closing valve when the opening degree of the expansion valve is equal to or greater than the specific opening degree. 2. The air-conditioning apparatus of claim 1 , wherein in a cooling mode in which the refrigerant of low-temperature is supplied to the indoor heat exchanger, in a case where the controller stops an operation of at least one of the plurality of indoor units and causes at least one of the indoor units to operate, the controller closes the expansion valve and closes the opening and closing valve of the stopped indoor unit, respectively, and wherein in a case where the controller causes the stopped indoor unit to operate, the controller opens the opening and closing valve of the operated indoor unit and then sets the opening degree of the expansion valve of the operated indoor unit. 3. The air-conditioning apparatus of claim 1 , wherein in a case where the controller causes an indoor unit in operation to be stopped, the controller stops an operation of the indoor fan of the indoor unit and then controls operations of the expansion valve and the opening and closing valve. 4. The air-conditioning apparatus of claim 1 , wherein in a case where the controller causes an indoor unit being stopped to operate, the controller controls the operations of the expansion valve and the opening and closing valve of the indoor unit and then causes the indoor fan to start operation. 5. The air-conditioning apparatus of claim 1 , wherein the specific opening degree is an opening degree at which a flow resistance of the refrigerant passing through the expansion valve is equal to a flow resistance in the expansion mechanism connected in parallel to the expansion valve. 6. The air-conditioning apparatus of claim 1 , wherein the expansion mechanism includes an orifice that is sandwiched between the porous bodies provided on an inlet side and an outlet side with respect to a refrigerant flow direction, and spaces are formed between the orifice and each of the porous bodies, wherein length in the refrigerant flow direction of one of the spaces formed between the porous body on the inlet side of the refrigerant flow in the heating mode and the orifice is smaller than or equal to diameter of the orifice, and wherein length in a refrigerant flow direction of one of the spaces formed between the porous body on the outlet side of the refrigerant flow in the heating mode and the orifice is equal to or greater than the diameter of the orifice. 7. An air-conditioning apparatus comprising: a refrigerant circuit including, an outdoor unit having a compressor and an outdoor heat exchanger, and a plurality of indoor units each having an expansion valve capable of varying an opening degree and an indoor heat exchanger; the refrigerant circuit connecting the compressor, the outdoor heat exchanger, the expansion valve, and the indoor heat exchanger with refrigerant pipes through which a refrigerant circulates, a controller configured to control at least the opening degree of the expansion valve, an opening and closing valve configured to open and close a refrigerant passage and an expansion mechanism having porous bodies capable of passing a refrigerant therethrough, wherein, in the refrigerant circuit, the opening and closing valve and the expansion mechanism are connected in series, while the serially connected opening and closing valve and the expansion mechanism are connected in parallel with the expansion valve, and wherein the controller opens the opening and closing valve when the opening degree of the expansion valve is greater than a fully-closed state and is smaller than a specific opening degree, and closes the opening and closing valve when the opening degree of the expansion valve is equal to or greater than the specific opening degree. 8. The air-conditioning apparatus of claim 7 , wherein the specific opening degree is an opening degree at which a flow resistance of the refrigerant passing through the expansion valve is equal to a flow resistance in the expansion mechanism. 9. The air-conditioning apparatus of claim 7 , further comprising a heat medium transmission device configured to transmit a heat medium that exchanges heat with the refrigerant in the indoor heat exchanger, wherein in a case where the refrigerant is caused to start flowing in the indoor heat exchanger, the controller causes the heat medium transmission device to start operation after the controller controls operations of the expansion valve and the opening and closing valve, respectively. 10. The air-conditioning apparatus of claim 7 , further comprising a heat medium transmission device configured to transmit a heat medium that exchanges heat with the refrigerant in the indoor heat exchanger, wherein in a case where the refrigerant is caused to stop flowing in the refrigerant circuit, the controller controls respective operations of the expansion valve and the opening and closing valve after the controller causes the heat medium transmission device to stop an operation. 11. The air-conditioning apparatus of claim 7 , wherein the indoor unit comprises a plurality of indoor units, and wherein in a heating mode in which the refrigerant of high-temperature from the compressor is supplied to the indoor heat exchanger, in a case where the controller stops an operation of at least one of the plurality of indoor units and causes at least one of the indoor units to operate, the controller closes the expansion valve and opens the opening and closing valve of the stopped indoor unit, respectively. 12. The air-conditioning apparatus of claim 7 , wherein the indoor unit comprises a plurality of indoor units, wherein in a cooling mode in which the refrigerant of low-temperature is supplied to the indoor heat exchanger, in a case where the controller stops an operation of at least one of the plurality of indoor units and causes at least one of the indoor units to operate, the controller closes the expansion valve and closes the opening and closing valve of the stopped indoor unit, respectively, and wherein in a case where the controller