An expansion engine operating on a Brayton cycle which is part of a system for producing refrigeration at cryogenic temperatures that includes a compressor, a counter-flow heat exchanger, and a load that may be remote, which is cooled by gas circulating from the engine. The engine has a piston in a
An expansion engine operating on a Brayton cycle which is part of a system for producing refrigeration at cryogenic temperatures that includes a compressor, a counter-flow heat exchanger, and a load that may be remote, which is cooled by gas circulating from the engine. The engine has a piston in a cylinder which has nearly the same pressure above and below the piston while it is moving. The piston and valves can be either mechanically or pneumatically actuated and the pressures above and below the piston can be nearly equal by virtue of a regenerator that connects the two spaces or by valves.
대표청구항▼
1. An expansion engine for producing refrigeration at cryogenic temperatures, the expansion engine operating with a high pressure gas supplied from a supply line and returning a low pressure gas to a return line, the expansion engine comprising: a combined cylinder comprising a piston cylinder and a
1. An expansion engine for producing refrigeration at cryogenic temperatures, the expansion engine operating with a high pressure gas supplied from a supply line and returning a low pressure gas to a return line, the expansion engine comprising: a combined cylinder comprising a piston cylinder and a drive stem cylinder, the combined cylinder having a cylinder cold end in the piston cylinder and a cylinder warm end in the drive stem cylinder;a piston driven by a drive force and having a top surface, the top surface being a piston warm end, the piston reciprocating in the piston cylinder between the cylinder cold end and the cylinder warm end,a drive stem attached to the piston warm end at the top surface and reciprocating in the drive stem cylinder, the piston having a first operating gas pressure at the cylinder cold end and having a second operating gas pressure above a top surface but not on a top surface of the drive stem;an inlet valve and an outlet valve connected to the cylinder cold end, the inlet valve admitting the high pressure gas when the piston is near the cylinder cold end and moving up, the outlet valve exhausting the gas to the return line when the piston is near the cylinder warm end and moving down;a valve assembly comprising one of a first check valve, a second check valve, and a first active valve and a second active valve, the valve assembly for maintaining the first operating gas pressure and the second operating gas pressure at a substantially equivalent pressures while the piston is moving;wherein the first check valve is directly connected between the cylinder warm end and the supply line to allow flow from the warm end to the supply line and the second check valve is directly connected between the cylinder warm end and the return line to allow flow from the return line to the cylinder warm end; andwherein the first active valve is directly connected between the cylinder warm end and the supply line and the second active valve is directly connected between the cylinder warm end and the return line, the opening and closing of the first active valve and the second active valve being coordinated with a position of the piston. 2. An expansion engine in accordance with claim 1 in which the means to maintain the pressures approximately equal is to connect said warm and cold ends with a gas passage including a regenerator. 3. An expansion engine in accordance with claim 1, wherein said the inlet valve and the outlet valve are opened and closed by a pneumatic force. 4. An expansion engine in accordance with claim 1 in which said inlet and outlet valves are opened and closed by one of an electric actuator and a cam actuator. 5. An expansion engine in accordance with claim 3, wherein a timing of opening and closing the inlet valve and the outlet valve is coordinated with the position of said piston by rotary valve or a shuttle valve. 6. An expansion engine in accordance with claim 1, wherein the drive force is a pneumatic force controlled by a rotary valve, the rotary valve also having ports to actuate the inlet valve and the outlet valve. 7. An expansion engine in accordance with claim 1, wherein the drive force is a pneumatic force controlled by a rotary valve, the rotary valve also comprising ports to flow gas to the piston warm end, said flow coordinated with the flow that actuates the inlet valve and the outlet valve. 8. An expansion engine in accordance with claim 1 in which said mechanically actuated drive stem comprises a Scotch Yoke mechanism and a motor that also turns a rotary valve, said rotary valve having ports to actuate said inlet and outlet valves. 9. An expansion engine in accordance with claim 8 in which said rotary valve also contains ports to flow gas to the warm end of said piston, said flow coordinated with the flow that actuates said inlet and outlet valves. 10. An expansion engine for producing refrigeration at cryogenic temperatures, the expansion engine comprising: a cylinder having a cylinder cold end and a cylinder warm end;a piston reciprocating in the cylinder between the cylinder cold end and the cylinder warm end to vary a cold end space in the cylinder at the cylinder cold end and a warm end space in the cylinder at the cylinder warm end, the piston comprising a drive stem attached to a portion of the piston warm end anda shoulder on the piston warm end and peripheral to the portion where the drive stem is attached,the piston having a first operating gas pressure at the cylinder cold end and having a second operating gas pressure on the shoulder; andan inlet valve and an outlet valve connected to the cold end space, the inlet valve admitting a high pressure gas from a supply line when the piston is near the cylinder cold end and moving up, the outlet valve exhausting the gas to a gas return line when the piston is near the cylinder warm end and moving down;a valve assembly comprising one of a first check valve, a second check valve, and a first active valve and a second active valve, the valve assembly for maintaining the first operating gas pressure and the second operating gas pressure at a substantially equivalent pressures while the piston is moving;wherein the first check valve is directly connected between the cylinder warm end and the supply line to allow flow from the cylinder warm end to the supply line and the second check valve is directly connected between the cylinder warm end and the return line to allow flow from the return line to the cylinder warm end; andwherein the first active valve is directly connected between the cylinder warm end and the supply line and the second active valve is directly connected between the cylinder warm end and the return line, the opening and closing of the first active valve and the second active valve being coordinated with a position of the piston. 11. An expansion engine in accordance with claim 10, wherein said the inlet valve and the outlet valve are opened and closed by a pneumatic force. 12. An expansion engine for producing refrigeration at cryogenic temperatures, the expansion engine operating with a high pressure gas supplied from a supply line and returning a low pressure gas to a return line, the expansion engine comprising: a combined cylinder comprising a piston cylinder and a drive stem cylinder, the combined cylinder having a cylinder cold end in the piston cylinder, a cylinder warm end in the piston cylinder, the drive stem cylinder joined immediately to the cylinder warm end;a piston driven by a drive force and having a top surface, the top surface being a piston warm end, the piston reciprocating in the piston cylinder between the cylinder cold end and the cylinder warm end,a drive stem attached to the piston warm end at the top surface and reciprocating in the drive stem cylinder, the piston having a first operating gas pressure at the cylinder cold end and having a second operating gas pressure above a top surface outside an area of the drive stem but not on a top surface of the drive stem;an inlet valve and an outlet valve connected to the cylinder cold end, the inlet valve admitting the high pressure gas when the piston is near the cylinder cold end and moving up, the outlet valve exhausting the gas to the return line when the piston is near the cylinder warm end and moving down;a valve assembly connected to the cylinder warm end, the valve assembly for maintaining the first operating gas pressure and the second operating gas pressure at a substantially equivalent pressures while the piston is moving;wherein a first valve is directly connected between the cylinder warm end and the supply line to allow flow from the warm end to the supply line and a second valve is directly connected between the cylinder warm end and the return line to allow flow from the return line to the cylinder warm end; andwherein the first valve is open while the piston is moving up and the second valve is open while the piston is moving down. 13. An expansion engine in accordance with claim 12, wherein each of the first valve and the second valve at the warm end are one a check valve and an active valve.
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이 특허에 인용된 특허 (11)
Ohtani Yasumi,JPX ; Takahashi Masahiko,JPX ; Hatakeyama Hideo,JPX ; Chandratilleke Rohana,JPX ; Kuriyama Toru ; Nakagome Hideki,JPX ; Kobayashi Takayuki,JPX ; Hattori Tomomi,JPX ; Yoshino Tatsuya,JPX, Cooling system having a plurality of cooling stages in which refrigerant-filled chamber type refrigerators are used.
Liepert Anthony G. (Boston MA) Crunkleton James A. (Auburndale MA) Gallagher Gregory R. (West Newton MA) Smith ; Jr. Joseph L. (Concord MA) Cogswell Frederick J. (Glastonbury CT), Cryogenic refrigeration apparatus.
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