Patent ID: 8499568

Claim:
A pulse tube refrigerator, comprising: a first pulse tube configured to perform adiabatic expansion of a coolant gas; a first regenerator having a high temperature end to which the coolant gas is supplied and a low temperature end connected to the first pulse tube, the first regenerator being configured to store a cooling generated at the first pulse tube based on the adiabatic expansion of the coolant gas; a compressor configured to compress the coolant gas, the compressor having a suction side to suction the coolant gas and a supply side to discharge the coolant gas; a first supply side valve having a suction side and a supply side, the suction side letting coolant gas flow into the valve and the supply side letting coolant gas discharge from the valve, the supply side of the first supply side valve being connected to the high temperature end of the first generator and the suction side of the first supply side valve being connected to the supply side of the compressor so that the first supply side valve is configured to put in communication with or block off communication between the supply side of the compressor and the high temperature end of the first regenerator; a first filter provided between the supply side of the first supply side valve and the high temperature end of the first regenerator so that the coolant gas flows from the supply side of the first supply side valve to the high temperature end of the first generator by passing through the first filter; a first suction side valve connected to the first filter via a first joint point, the first joint point being an intermediate point between the supply side of the first supply side valve and the first filter, the first suction side valve being configured to put in communication or block off communication between the first filter and the suction side of the compressor; a first self seal joint provided between the supply side of the compressor and the suction side of the first supply side valve; a second self seal joint provided between a supply side of the first suction side valve and the suction side of the compressor; and a third self seal joint provided between a first regenerator side of the first filter and the high temperature end of the first regenerator; a first orifice connected to a pipe that connects a second joint point and a high temperature end of the first pulse tube so as to adjust a flow resistance of a flow path between the second joint point and the high temperature end of the first pulse tube, the second joint point being an intermediate point between the first filter and the third self seal joint; and a fourth self seal joint provided between the first pulse tube side of the first orifice and the high temperature end of the first pulse tube, wherein said first orifice is provided separately from a connection pipe that connects the second joint point and the high temperature end of the first pulse tube so as to adjust a flow resistance of the connection pipe.