The present invention relates to pulse tube refrigerators for recondensing cryogenic liquids. In particular, the present invention relates to the same for magnetic resonance imaging systems. In many cryogenic applications components, e.g. superconducting coils for magnetic resonance imaging (MRI), s
The present invention relates to pulse tube refrigerators for recondensing cryogenic liquids. In particular, the present invention relates to the same for magnetic resonance imaging systems. In many cryogenic applications components, e.g. superconducting coils for magnetic resonance imaging (MRI), superconducting transformers, generators, electronics, are cooled by keeping them in contact with a volume of liquified gases (e.g. Helium, Neon, Nitrogen, Argon, Methane . . . ). Any dissipation in the components or heat getting into the system causes the volume to part boil off. To account for the losses, replenishment is required. This service operation is considered to be problematic by many users and great efforts have been made over the years to introduce refrigerators that recondense any lost liquid right back into the bath. The present invention addresses the problems arising from convection which occurs within a pulse tube refrigerator. The invention provides. in a first aspect, a PTR recondenser wherein, the individual tubes of PTR are insulated by a split sleeve around the whole assembly. Preferably, the sleeve is split into two parts. This configuration has been shown to reduce convection and problems associated therewith.
대표청구항▼
The invention claimed is: 1. A pulse tube refrigerator PTR arrangement within a cryogenic apparatus, wherein: a PTR is operable within an insertion sock associated with a housing of the cryogenic apparatus, for positioning the PTR with a first end exposed to room temperature and a second end associ
The invention claimed is: 1. A pulse tube refrigerator PTR arrangement within a cryogenic apparatus, wherein: a PTR is operable within an insertion sock associated with a housing of the cryogenic apparatus, for positioning the PTR with a first end exposed to room temperature and a second end associated with a cryogenic fluid; the insertion sock comprises an inner sleeve, and an outer sleeve, which is separable from the inner sleeve; pulse and regenerator tubes of the PTR are surrounded by the inner sleeve; space surrounding the tubes of the PTR within the inner sleeve is in a state of vacuum. 2. A PTR arrangement according to claim 1, wherein: the PTR comprises two stages; and each sleeve is split into two parts, to separately insulate each stage. 3. A PTR arrangement according to claim 1, wherein only a small annular gap exists between the inner sleeve and outer sleeve. 4. A PTR arrangement according to claim 1, wherein the inner sleeve is fabricated from one of thin walled stainless steel tube, Titanium or composite materials. 5. A PTR arrangement according to claim 1, wherein the inner sleeve is fabricated from composites and is lined with metallic liners. 6. The pulse tube refrigerator according to claim 1, wherein: the inner sleeve comprises a twin-walled sleeve. 7. A PTR arrangement according to claim 6, wherein the space between the walls of the twin-walled sleeve is evacuated. 8. A PTR arrangement according to claim 1, wherein the walls of the inner sleeve are corrugated. 9. A PTR arrangement according to claim 1, wherein the sock comprises a material selected from the group consisting of superinsulation, thinsulate and foam, and is placed around a rigid tube. 10. A PTR arrangement according to claim 6, wherein the PTR is associated with a magnetic resonance imaging apparatus. 11. A method of operating a pulse tube refrigerator PTR arrangement within a crvogenic apparatus, wherein the PTR is operable within an outer sleeve associated with a housing of the cryogenic apparatus, for positioning the PTR with a first end exposed to room temperature and a second end associated with a cryogenic fluid, wherein tubes of the PTR are disposed within and surrounded by a space that is delimited by an inner sleeve, the method comprising: providing thermal insulation in said space that is delimited by the inner sock, surrounding tubes of the PTR, in a configuration that reduces heat losses from the tubes of the PTR: wherein each of the outer sleeve and inner sleeve is split into two parts, and the outer sleeve and the inner sleeve are separable from each other. 12. A method of operatina a pulse tube refrigerator PTR arrangement within a cryogenic apparatus, wherein the PTR is operable within an insertion sock associated with a housing of the cryogenic apparatus, for positioning the PTR with a first end exposed to room temperature and a second end associated with a cryogenic fluid, wherein tubes of the PTR are disposed within and surrounded by a space that is delimited by an inner sleeve, the method comprising: providing thermal insulation in said space that is delimited by the inner sleeve, surrounding tubes of the PTR, in a configuration that reduces heat losses from the tubes of the PTR; wherein: the inner sleeve surrounds all the tubes of the pulse tube refrigerator; and a small annular gap is provided between an inner sleeve and outer sleeve of said inner sock. 13. The method according to claim 12, further comprising providing at least one of said inner sleeve and said outer sleeve in the form of a twin-walled sleeve. 14. The method according to claim 13, further comprising evacuating space between the walls of said twin-walled sleeve.
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이 특허에 인용된 특허 (14)
Rattray Alan A. (Alta Loma CA) Soloski Steven C. (Manhattan Beach CA) Mastrup Frithjof N. (Rancho Palos Verdes CA), Concentric pulse tube expander with vacuum insulator.
Rattray Alan A. (Alta Loma CA) Kirkconnell Carl S. (Huntington Beach CA) Soloski Steven C. (Manhattan Beach CA) Price Kenneth D. (Long Beach CA) Russo Samuel C. (Arcadia CA), Cooling system using a pulse-tube expander.
Strasser Wilhelm (Bergisch Gladbach DEX), Method for carrying out maintenance work on a refrigerator, device and refrigerator for carrying out the method.
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