Double inlet type pulse tube refrigerator

What is claimed is: 1. A method of controlling a double inlet type pulse tube refrigerator including a regenerator having a high temperature end and a low temperature end; a pulse tube having a high temperature end and a low temperature end, the low temperature end being connected to the low temperature end of the regenerator; a compressor having a high pressure supplying side and low pressure receiving side for a coolant, wherein the high pressure supplying side is connected to the high temperature end of the regenerator via a coolant supplying path having a first opening and closing valve, and the low pressure receiving side is connected to the high temperature end of the regenerator via a coolant receiving path having a second opening and closing valve; a bypass pipe having a double inlet valve, the bypass pipe being configured to connect the high temperature end of the pulse tube and the high temperature end of the regenerator; a buffer tank connected to the high temperature end of the pulse tube via a first pipe having a first flow path resistance member; and a second pipe extending from the buffer tank or the first pipe and having a second flow path resistance member, which includes a fluid amount control valve and a third opening and closing valve, the second flow path resistance member of the second pipe being connected with the coolant receiving path at a point existing between the low pressure receiving side of the compressor and the second opening and closing valve, the method comprising: causing a gas flowing out of the high temperature end of the pulse tube to pass through both the fluid amount control valve and the third opening and closing valve to the point existing between the low pressure receiving side of the compressor and the second opening and closing valve in the coolant receiving path; opening and closing the third opening and closing valve in association with an opening state of or a closing state of the first opening and closing valve; opening the second opening and closing valve and closing the first opening and closing valve at a first time point; during a first period maintaining the second opening and closing valve in an opened state and the first and third opening and closing valves in closed states so as to flow a gas from the low temperature end of the pulse tube through the regenerator and the opened second opening and closing valve to the low pressure receiving side of the compressor, and to flow the gas from the high temperature end of the pulse tube through the bypass pipe and the opened second opening and closing valve to the low pressure receiving side of the compressor; subsequently maintaining the second opening and closing valve in an opened state and opening the third opening and closing valve at a second time point; during a second period maintaining the second and third opening and closing valves in opened states and the first opening and closing valve in a closed state so as to additionally flow the gas from the buffer tank through the second pipe and the opened third opening and closing valve to the low pressure receiving side of the compressor; closing the third opening and closing valve at a third time point; and during a third period maintaining the second opening and closing valve in an opened state and the first and third opening and closing valves in closed states; wherein the first period is on and after the first time point and before the second time point; wherein the second period is on and after the second time point and before a third time point and immediately after the first period; and wherein the third period is on and after the third time point and immediately after the second period. 2. The method of controlling a double inlet type pulse tube refrigerator as claimed in claim 1 , wherein the first, second, and third opening and closing valves are a single rotary valve or a spool valve. 3. The method of controlling a double inlet type pulse tube refrigerator as claimed in claim 1 , wherein one end of the second pipe having the second flow path resistance member is connected with the coolant receiving path at the point, the method further comprising: maintaining the third opening and closing valve to be closed when the first opening and closing valve is opened; and opening the third opening and closing valve while the first opening and closing valve is closed. 4. The method of controlling a double inlet type pulse tube refrigerator as claimed in claim 1 , wherein the double inlet type pulse tube refrigerator is a multi-stage pulse tube refrigerator.