Vacuumized Chamber With Open Vapor Or Gas Outlet Patents (Class 62/268)
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Patent number: 4584841Abstract: The invention relates to a hibernator suitable for keeping under permanent refrigeration a cadaver placed in a desired position and constantly visible from the outside. The hibernator consists essentially of a structure whose refrigerated and fluid-tight upper part (1) serves as a resting place for the being to be preserved, with at least a double-glazed wall; and whose lower part (2) or base is intended to house the refrigerating unit (3) and various technical elements including pipes (22 to 24) to assure partial vacuum in determined sectors of the structure of the resting place. Also disclosed is a process for preservation and showing of cadavers which have previously been frozen or imprisoned in blocks of translucid ice.Type: GrantFiled: June 11, 1984Date of Patent: April 29, 1986Inventors: Gerard Guillaume, Lola Guillaume nee Henry
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Patent number: 4580404Abstract: Hydrogen is stored at cryogenic temperatures by adsorption on porous carbon having a nitrogen BET apparent surface area above about 1500 m.sup.2 /g. Hydrogen can be adsorbed and desorbed in the context of a cryopump, having as the pumping element a panel, having large particles of pressed porous carbon thereon.Type: GrantFiled: August 9, 1985Date of Patent: April 8, 1986Assignee: Air Products and Chemicals, Inc.Inventors: Guido P. Pez, William A. Steyert
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Patent number: 4577465Abstract: An oil free vacuum system 10 which comprises a high thermal capacitance cryopump 12 and air ejector 38. The air ejector 38 is used to reduce load lock chamber 16 pressure to an intermediate vacuum. Cryopump 12 further evacuates chamber 12 to the operating vacuum of a work chamber 14. The work chamber 14 is maintained at high vacuum by a main cryopump 20. The main cryopump can be started in an oil free manner through the use of air ejector 38 and high thermal capacitance cryopump 12. A high themal capacitance, high thermal conductance cryopanel is formed of a lead/copper sandwich.Type: GrantFiled: May 11, 1984Date of Patent: March 25, 1986Assignee: Helix Technology CorporationInventors: Donald A. Olsen, Michael J. Eacobacci
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Patent number: 4576014Abstract: A vacuum cooler for produce and the like comprising a vacuum tube (9) forming a vacuum chamber (10) in which the produce is placed. A vacuum pump (13) lowers the atmospheric pressure while cold water is circulated over the produce by a pump (24) forcing the water through nozzles (22). The invention comprises a venting system allowing outside air into the vacuum chamber to raise the pressure back to atmospheric level to allow removal of the cooled produce. A vent pipe (42) includes an outlet (44) positioned beneath the water level in the pump (29). By causing the incoming air to enter the vacuum chamber through the water, the pressure rise is slowed, pressure differentials throughout the vacuum chamber are reduced, and the humidity level of the air entering the chamber is raised to reduce vacuum infiltration of water into the produce.Type: GrantFiled: January 31, 1985Date of Patent: March 18, 1986Assignee: Western Precooling Systems, Inc.Inventors: Craig A. Miller, Floyd E. Miller
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Patent number: 4559787Abstract: An improved cryopumping apparatus which comprises a cryopumping space which may be alternately opened and closed from the surrounding area by moveable panels, trubular cryopanels within said cryopumping space through which a coolant such as liquid helium may be passed, and an apparatus for spraying liquid argon onto said cylindrical cryopanels in order to enhance the cryogenic entrapment of such low-z ions, atoms, and molecules as hydrogen and helium.Type: GrantFiled: December 4, 1984Date of Patent: December 24, 1985Assignee: The United States of America as represented by the United States Department of EnergyInventors: Thomas H. Batzer, Wayne R. Call
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Patent number: 4555907Abstract: A second stage cryopanel array suitable for both concentric refrigerators and side entry cryopumps is formed of two groups of semi-circular baffles mounted to respective L-shaped brackets. The array sections can be independently positioned about a second stage of a refrigerator.Type: GrantFiled: May 18, 1984Date of Patent: December 3, 1985Assignee: Helix Technology CorporationInventor: Allen J. Bartlett
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Patent number: 4546613Abstract: In a cryopump, condensation of gases such as argon, oxygen and nitrogen on surfaces other than the second stage array 38, 40 is avoided to prevent cross over hang up and pressure instability. To prevent condensation of argon, oxygen and nitrogen on the frontal cryopumping array 46, that array is held to a temperature of at least 50.degree. K. A heat load to the first stage increases as the temperature of the first stage drops. That heat load is provided by a high emissivity radiation shield 44 or by a thermal switch 56, 58. Condensation of argon and other gases on the second stage refrigerator cylinder 32 is avoided by a close fitting sleeve 52 positioned over the refrigerator cylinder 32 in thermal contact with the second stage heat sink 30 but out of thermal contact with the cylinder 32.Type: GrantFiled: December 20, 1984Date of Patent: October 15, 1985Assignee: Helix Technology CorporationInventors: Michael J. Eacobacci, Donald A. Olsen
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Patent number: 4541249Abstract: A cryogenic system adapted to trap or pump waste industrial gasses and characterized by a cryogenic assembly having a cryogenically cooled member sealed within an inner enclosure, a thermal switch assembly for injecting and removing gas from within the inner enclosure, and a flush assembly for removing the solid and liquid residues of the industrial gasses from the trap assembly. The inner enclosure may be covered with a sacrificial material such as copper to chemically react with the reactive gasses. The use of a thermal switch assembly permits rapid regeneration of the system because the cryogenically cooled member does not have to be shut down during the regeneration cycle.Type: GrantFiled: November 28, 1984Date of Patent: September 17, 1985Inventors: Clint Graves, Mario Marcon
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Patent number: 4539822Abstract: A vibration isolator is disclosed to mount a cryopump expander module or other vibrating equipment on a vacuum housing. The isolator includes a welded metal bellows which both forms a vacuum-tight passage and acts as an isolating spring, and a plurality of elastomeric isolators which clamp the oscillations of the bellows.Type: GrantFiled: February 27, 1984Date of Patent: September 10, 1985Assignee: National Electrostatics CorporationInventor: Mark L. Sundquist
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Patent number: 4535597Abstract: The disclosure relates to a closed circuit refrigerator having both rapid heating/defrost and cooling rates for the cryosurface and which operates on a continuous basis. The system is based upon a refrigeration process of the type which employs compression of a mixture of vapor refrigerant components with partial condensation and partial evaporation with steps of intermediate cooling and at least partial phase separation. The evaporator of the refrigeration system is placed in a vacuum system as a "Meissner" coil. The cryosurface has, thermally coupled thereto, both a defrost tube and an evaporator tube, the defrost tube carrying refrigerant fluid therein at raised temperature when made operational during a defrost cycle and the evaporator tube carrying low temperature refrigerant fluid therein when made operational during a cool down operation. Appropriate valves determine the refrigerant fluid both, i.e., through cooling heat exchangers or through a heating heat exchanger.Type: GrantFiled: January 25, 1984Date of Patent: August 20, 1985Assignee: Marin Tek, Inc.Inventors: Dale J. Missimer, Michael R. St. Pierre
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Patent number: 4531372Abstract: A low-temperature pump having a throttling valve formed by tilting radially disposed vanes in side-by-side relation, capable of fully opening a pump port to a process chamber. Motion from one vane can be coupled to the next through shims which support the vanes and form a seal when the vanes are flat in a common plane. One of the vanes may be controlled independently of the others so that coarse and fine modes of operation may be achieved by separately controlling (N-1) vanes and the Nth vane. The vanes are maintained in thermal contact with a chilled outer wall surface of a first pumping stage of a two-stage pump, the second stage coaxially surrounding a first stage maintained at a very low temperature. A central hub, at the convergence region for the vanes, supports a shield, protecting the second stage from radiation through a port in the upper regions of the pump.Type: GrantFiled: July 15, 1983Date of Patent: July 30, 1985Assignee: Comptech, IncorporatedInventor: Edward J. Slabaugh
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Patent number: 4530213Abstract: A cryopump of vertically tiered individual generally conical shaped sections with linearly increasing base diameters arranged smaller to larger base diameter as the distance increases from the coldest end of elongated refrigeration source. Individual cryopanels are a surface of revolution with tapered bayonet joint interlocking portions to permit ease of assembly while maintaining good thermal contact between sections.Type: GrantFiled: June 28, 1983Date of Patent: July 23, 1985Assignee: Air Products and Chemicals, Inc.Inventor: Frank J. Kadi
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Patent number: 4520574Abstract: A process for drying a food under a reduced pressure is provided for the preparation of a dried food which may be rehydrated to the original condition in a very short time to have pleasant taste and texture substantially comparable to an untreated food. The process is characterized by the step of placing the food to be dried in an environment of reduced pressure low enough to vaporize a portion of the water contained in the food and to freeze the balance of water by the radiation of heat by the vaporization, and the step of heating to dry the food at relatively low temperature under the reduced pressure. A further characteristic feature of the process of the invention is the sudden or abrupt drop of the pressure surrounding the food at the initial stage, whereby the food is puffed somewhat by the action of the vigorously vaporizing water to a dried state with a substantially hollow core portion and a denser surface layer.Type: GrantFiled: November 23, 1983Date of Patent: June 4, 1985Assignee: House Food Industrial Co., Ltd.Inventors: Ko Sugisawa, Yasushi Matsumura, Kazumitsu Taga
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Patent number: 4514204Abstract: A bakeable cryopump having a housing and means to removeably receive the displacer end of a cryogenic refrigerator to cool internal cryopanels said cryopumps adapted for removal of the refrigerator without loss of vacuum inside the cryopump and further adapted to be heated under vacuum to remove pumped gases primarily water so that the cryopumps after cooling can be used at vacuum of at least 10.sup.-10 Torr.Type: GrantFiled: March 21, 1983Date of Patent: April 30, 1985Assignee: Air Products and Chemicals, Inc.Inventors: Glenn E. Bonney, Ralph C. Longsworth
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Patent number: 4506513Abstract: A cold trap for removing contaminants from a vapor stream has a coolant expansion chamber extending the length of the cold trap housing and a stack of spaced-apart, perforated disk-shaped baffles mounted about the outside of the expansion chamber. A coolant feed tube is mounted inside, and extends the length of, the expansion chamber. Coolant exits the feed tube into the expansion chamber through a small tangential outlet hole in the bottom of the feed tube to increase coolant turbulence and heat transfer efficiency. The cold trap causes the vapor stream to pass through one or more centrifugal separation and condensation stages defined by the baffles to remove solid particles, mists and condensates. A reversible refrigeration system is used both to cool the cold trap and to rapidly defrost it. This permits the rapid liquification and drainage of collected contaminants.Type: GrantFiled: June 17, 1983Date of Patent: March 26, 1985Inventor: John K. Max
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Patent number: 4494381Abstract: A cryopump 20 with increased adsorptive capacity comprising a honeycomb adsorption structure 46 positioned within a second stage chevron assembly 40. Multiple chambers 58 of the honeycomb are covered with adsorbent charcoal 68. The entire structure 46 is attached to a second stage 52 of a cryogenic refrigerator 45.Type: GrantFiled: May 13, 1983Date of Patent: January 22, 1985Assignee: Helix Technology CorporationInventor: Philip A. Lessard
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Patent number: 4485631Abstract: To reduce the time for regenerating self-contained cryopumps a direct connection is provided during the defrosting operation between the associated expansion space and the high-pressure gas source of the cryogenerator, to heat up the low-temperature condensation surface, while the cryogenerator continues to operate. The application is particularly to multi-stage self-contained cryopumps.Type: GrantFiled: September 13, 1983Date of Patent: December 4, 1984Assignee: Balzers AktiengesellschaftInventor: Otto Winkler
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Patent number: 4484457Abstract: In a vacuum generating system having a liquid ring vacuum pump preceded in a gas flow path by a precompressor and followed by a liquid separator, the precompressor is driven by steam produced in a heat exchanger in contact with the working fluid of the vacuum pump. The working fluid is kept at a temperature exceeding the boiling point of water.Type: GrantFiled: January 27, 1983Date of Patent: November 27, 1984Assignee: Siemens AktiengesellschaftInventor: Kurt Mugele
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Patent number: 4479361Abstract: Apparatus for pumping gas continuously a plurality of articulated panels of getter material, each of which absorbs gases on one side while another of its sides is simultaneously reactivated in a zone isolated by the panels themselves from a working space being pumped.Type: GrantFiled: March 2, 1983Date of Patent: October 30, 1984Assignee: The United States of America as represented by the United States Department of EnergyInventor: John E. Osher
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Patent number: 4479360Abstract: A cryopump having two refrigerator stages operable for producing progressively lower temperatures and at least one surface between the refrigerator stages and in such thermal communication therewith as to have, during operation of the refrigerator stages, temperatures which adsorb and desorb thereon at least one gas in the cryopump, having the improvement comprising:shield means extending over substantially all of the surface for substantially preventing the gas from circulating to the surface; andmeans for maintaining the shield means at a substantially constant temperature during operation of the refrigerator stages.Type: GrantFiled: December 6, 1982Date of Patent: October 30, 1984Assignee: Leybold-Heraeus GmbHInventors: Werner B/a/ chler, Rolf Heisig
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Patent number: 4475349Abstract: Apparatus for continuous pumping using cycling cyropumping panels. A plurality of liquid helium cooled panels are surrounded by movable nitrogen cooled panels the alternatively expose or shield the helium cooled panels from the space being pumped. Gases condense on exposed helium cooled panels until the nitrogen cooled panels are positioned to isolate the helium cooled panels. The helium cooled panels are incrementally warmed, causing captured gases to accumulate at the base of the panels, where an independent pump removes the gases. After the helium cooled panels are substantially cleaned of condensate, the nitrogen cooled panels are positioned to expose the helium cooled panels to the space being pumped.Type: GrantFiled: March 17, 1983Date of Patent: October 9, 1984Assignee: The United States of America as represented by the United States Department of EnergyInventors: Thomas H. Batzer, Wayne R. Call
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Patent number: 4466252Abstract: The inner cryopanel of a cryopump includes a substrate having a plurality of holes such that the open areas represent 30% to 70% of the surface area of the substrate. A layer of cryosorbing material is secured to one surface of the substrate. An imperforate panel is juxtaposed to said one surface of said substrate.Type: GrantFiled: September 29, 1982Date of Patent: August 21, 1984Assignee: CVI IncorporatedInventor: Charles B. Hood
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Patent number: 4464905Abstract: A cryosorption pump comprises a pump housing; a supply conduit merging into the pump housing for introducing sorption material thereinto; an outlet conduit opening into the pump housing at a location below and spaced from the supply conduit; a plurality of heat conducting wall surfaces disposed in the pump housing; a refrigerator operatively connected to the wall surfaces for cooling them to a cryogenic temperature to which the sorption material situated between the wall surfaces is exposed; a regenerator connected to the outlet and supply conduits for regenerating sorbent-laden sorption material received from the pump housing by means of the outlet conduit and for admitting sorbent-free sorption material into the supply conduit; a first conveyor arranged in the outlet conduit for advancing sorbent-laden sorption material from the pump housing into the regenerator; and a second conveyor arranged in the supply conduit for advancing sorbent-free sorption material from the regenerator into the pump housing.Type: GrantFiled: June 24, 1983Date of Patent: August 14, 1984Assignee: Kernforschungszentrum Karlsruhe GmbHInventors: Hans Dittrich, Hartmut Frey, Ralf-Dieter Penzhorn
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Patent number: 4459823Abstract: An apparatus comprising a rotating substrate holder is provided. The rotating substrate holder is hollow and adapted to receive liquid gas such as nitrogen to cool the substrate to cryogenic temperatures. The novel substrate holder is supported inside of a vacuum chamber by a thin wall tube which is sealed with a liquid rotating seal at the point where it passes completely through the top wall of the vacuum chamber. The novel thin wall tube support provides access to the hollow substrate holder from outside the vacuum chamber and provides temperature isolation of the liquid in the substrate holder so that the liquid rotating seals are maintained at operable elevated temperatures.Type: GrantFiled: March 30, 1983Date of Patent: July 17, 1984Assignee: Sperry CorporationInventors: Richard M. Josephs, Ronald A. Flowers, Peter L. Young
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Patent number: 4449373Abstract: A cryopump 20 for differentially pumping water vapor and inert gases from a work space comprising a two stage refrigerator 45 in which a radiation shield 32 substantially encloses a second stage cryopanel 40. The radiation shield 32 incorporates a baffle plate 34 which condenses higher condensing temperature gases and restricts passage of low condensing temperature gases through orifices 36 to the second stage cryopanel 40. Backside pumping ports 38 provide a flow path to the second stage refrigerator for residual gases within the cryopump 20. This creates a high vacuum within the cryopump and allows it to operate at maximum efficiency.Type: GrantFiled: February 28, 1983Date of Patent: May 22, 1984Assignee: Helix Technology CorporationInventors: John F. Peterson, Allen J. Bartlett
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Patent number: 4448041Abstract: Refrigerated containers and trailers comprised of structural members in the form of vacuum insulated sidewalls, ceilings and floors having a thickness of approximately one inch. Each structural member is divided into a plurality of individual airtight sections and for each section there is a conduit that leads from the interior of the section to a vacuum pump via a manifold. By means of the pump, air can be withdrawn from each section to establish a vacuum therein. The manifold into which all of the conduits lead is provided with a pressure switch that responds to an increase in pressure caused by a leak in any section and actuates the vacuum pump whereby air is withdrawn from the leaking section.Type: GrantFiled: September 29, 1982Date of Patent: May 15, 1984Assignee: Trans Refrigeration International, Inc.Inventor: John V. D. Southworth, Jr.
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Patent number: 4446702Abstract: A cryopump installation in which a novel cryopump 20 maintains a work chamber 12 at continuous high vacuum while periodically evacuating a load lock 14 in order to allow transfer of material from the load lock 14 to the work chamber 12 without disruption of the work chamber environment. The cryopump has pumping ports 46 positioned on the radiation shield 50 in order to pump plenum 72 to a high vacuum. Load lock gases enter the cryopump through port 46 and are condensed and adsorbed by the radiation shield 50 and second stage cryopanel 54.Type: GrantFiled: February 14, 1983Date of Patent: May 8, 1984Assignee: Helix Technology CorporationInventors: John F. Peterson, Allen J. Bartlett
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Patent number: 4422301Abstract: Process and apparatus for recovery of vapor which is contained with air in a space above a volatile liquid which is stored in a container, especially a petroleum distillate or other costly liquid. The process employs the pressure build up due to thermal effects on the space above the volatile liquid to drive the vapor through a heat exchanging region at which a venturi evaporative cooling unit is used to extract heat from the vapor and partially condense the vapor without significant compression. A part of the condensed vapor is recycled to the heat exchanging region and introduced as a spray for a condensation "seeding" effect. The vapor is further cooled after cooling by the venturi evaporative cooling unit in a second and even a third cooling stage; these stages can include use of a conventional refrigeration unit to chill a heat exchanger and an ultra low temperature can be achieved by expanding liquified gas such as nitrogen in an insulated cyclone to achieve high percentage recovery of the vapor.Type: GrantFiled: May 7, 1980Date of Patent: December 27, 1983Assignees: Robert H. Watt, William F. Hastie, Walter Stockdale WrightInventors: Robert H. Watt, Richard H. Ladd, Walter S. Wright, deceased
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Patent number: 4408464Abstract: A Dewar cooling chamber having a mounting assembly therein capable of supporting a semiconductor platelet for translational movement in the x, y axes and tilting movement about the z axis. Cooling of the semiconductor platelet continually takes place even while the platelet is being moved in three dimensions. This cooling is accomplished by means of a flexible, conductive loop of material which interconnects a coolant source to a clamp surrounding the platelet. The clamp fixedly secures the semiconductor platelet to the mounting assembly. The cooling chamber is capable of maintaining the semiconductor platelet at liquid nitrogen temperatures and is therefore extremely useful within a semiconductor laser system.Type: GrantFiled: March 23, 1982Date of Patent: October 11, 1983Assignee: The United States of America as represented by the Secretary of the Air ForceInventors: Michael M. Salour, Charles B. Roxlo
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Patent number: 4408469Abstract: A refrigerator cryostat for producing high vacuums at controlled temperatures in a sample chamber has first and second refrigerator stages for progressively lowering the refrigerator temperature to the sample chamber. An independent heater heats the sample chamber to provide, in combination with the refrigerator temperature, the controlled temperatures to the sample chamber. A vacuum pump preliminarily evacuates a casing about the refrigerator stages which is also in vacuum communication with the sample chamber, but a pumping surface in thermal communication with the first refrigerator stage and in the casing cryogenically augments the preliminary evacuation to the high vacuum levels necessary for operation of the refrigerator cryostat at sample chamber temperatures of, for example, from about 10.degree. K. to about 350.degree. K.Type: GrantFiled: December 7, 1981Date of Patent: October 11, 1983Assignee: Leybold Heraeus GmbHInventor: Hans-Joachim Forth
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Patent number: 4407140Abstract: In this vacuum apparatus with a vacuum chamber and a vapor condenser installed therein, a refrigerant and a brine are supplied into said vapor condenser to thereby effect heat exchanges between both mediums and between both or either one of said mediums and a vapor to be generated.Type: GrantFiled: July 29, 1982Date of Patent: October 4, 1983Assignee: Kyowa Vacuum Engineering, Ltd.Inventor: Masakazu Kobayashi
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Patent number: 4406130Abstract: A cold surface for cryogenic pumps in the form of a (filled/through-streamed) double wall which is acted upon by a liquid refrigeration medium, as well as to a process for the production of such a cold surface. The double wall is formed by a series of thin-walled narrow tubes which are interconnected with each other, to which there are presently attached thin axially parallel, good heat conductive metal lamellas, wherein the tube diameter, tube spacing and wall thickness, as well as the lamella thickness, with consideration being given to a minimization of the total mass of the surface, are so correlated and dimensioned with respect to each other that the temperature differences within the lamellas of the surface which is acted upon with liquid refrigeration medium at a maximum occuring heat loading will remain below 0.1.degree. K.Type: GrantFiled: February 27, 1981Date of Patent: September 27, 1983Assignee: Kernforschungsanlage Julich GmbHInventor: Johann Hemmerich
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Patent number: 4363217Abstract: A cryogenic vacuum pump has an expander module suspended from the vacuum chamber of an electron microscope by a metal bellows which dampens the vibrations transmitted to the electron microscope from the expander module. A weight mounted on the expander module and disposed around the bellows counters the lifting force of the atmospheric pressure acting on the expander module and protects the bellows. The expander module is maintained in a centered position by vibration damping isolators disposed symmetrically around the expander module and which are attached to a support extending down from the vacuum housing. In one embodiment the isolators are bar magnets which repel magnetic ring attached to the expander module. In another embodiment the isolators are ladders in which the rungs are wire cables tensioned between a side members attached respectively to the expander module and to the support.Type: GrantFiled: January 29, 1981Date of Patent: December 14, 1982Inventor: Guy S. Venuti
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Patent number: 4354356Abstract: A cold trap for use in a high vacuum system to analyze the vapor component or components of the gases in, or introduced into, the vacuum system, including the assessment of the partial pressure of any specific component which may be present in the said gases, comprising a chamber closed at its upper end by a thin metallic diaphragm dished inwardly to receive a liquid coolant such as liquid nitrogen, an outlet to interconnect the chamber with a high vacuum system, and means to introduce successive doses of liquid coolant into the diaphragm. This construction allows the trap to be rapidly cycled. It is shown to be advantageous for the radius of curvature of the lowest part of the diaphragm to be such that the area of the diaphragm which remains at the temperature of the coolant until all the coolant has evaporated is larger than the effective area of the outlet.Type: GrantFiled: May 4, 1981Date of Patent: October 19, 1982Assignee: Unisearch LimitedInventor: Christopher J. Milner
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Patent number: 4353222Abstract: In this vacuum apparatus with a vacuum chamber and a vapor condenser installed therein, a refrigerant and a brine are supplied into said vapor condenser to thereby effect heat exchanges between both mediums and between both or either one of said mediums and a vapor to be generated.Type: GrantFiled: June 30, 1980Date of Patent: October 12, 1982Assignee: Kyowa Vacuum Engineering, Ltd.Inventor: Masakazu Kobayashi
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Patent number: 4341079Abstract: Cryopump apparatus for evacuating very large chambers to ultra high vacuums includes cryogenic panels alternating with radiation shields having a unique Z-configuration which optically blind the panels. The panels and shields are supported by and housed within structure having specific components slidable along one another to thereby permit necessary movement of the components when the apparatus is subjected to cool-down or warm-up. The apparatus is characterized by very high pumping speeds and is capable of cryopumping from both sides thereof.Type: GrantFiled: October 30, 1980Date of Patent: July 27, 1982Assignee: CVI IncorporatedInventor: John W. Bonn
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Patent number: 4336690Abstract: Two stage cryogenic pump having axially spaced baffle members for shielding the second stage from external thermal radiation while permitting substantially unimpeded gas flow from the inlet opening to the second stage.Type: GrantFiled: February 17, 1981Date of Patent: June 29, 1982Assignee: Varian Associates, Inc.Inventor: Kimo M. Welch
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Patent number: 4325220Abstract: An improved cryopump has cryopanels with pressed zeolite plates mounted thereon. The plates are maintained in intimate but unbonded contact with the panels by use of spring-type mechanisms. Older style panels have clay-bonded zeolite casts attached to their surfaces. The new configuration allows relative expansion and contraction between the zeolite plates and the panels, thereby improving durability of the zeolite. The resilient attachments assure that intimate contact and consequent good cooling of the zeolite adsorptive surface will be maintained during operation of the pump. The zeolite panels are desirably less than about 8 mm thick and are made by isostatic compaction of powders having pore sizes in the range of 2-25.times.10.sup.-10 m.Type: GrantFiled: October 6, 1980Date of Patent: April 20, 1982Assignee: United Technologies CorporationInventor: David J. McFarlin
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Patent number: 4324107Abstract: Means to induce a flow of air from the interior to the exterior of a block of porous material; comprising a chamber adapted to house said block and to be maintained during an operative cycle at an air pressure less than ambient air pressure; means to locate and to grip the block within said chamber; an injector needle assembly including an injector needle adapted to penetrate the said block after it has been located by the said gripping means; and means to move the injector needle into said block to allow air to flow through the said needles into and through the said porous block.Type: GrantFiled: March 27, 1979Date of Patent: April 13, 1982Inventors: William J. C. Pipe, John B. Gray
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Patent number: 4321801Abstract: A jet pump system is shown that utilizes waste heat to provide heating and/or cooling. Waste heat diverted through a boiler causes a refrigerant to evaporate and expand for supersonic discharge through a nozzle thereby creating a vacuum in an evaporator coil. The vacuum draws the refrigerant in a gaseous state into a condensing section of a jet pump along with refrigerant from a reservoir in a subcooled liquid form. This causes condensation of the gas in a condensation section of the jet pump, while moving at constant velocity. The change in momentum of the fluid overcomes the system high side pressure. Some of the condensate is cooled by a subcooler. Refrigerant in a subcooled liquid state from the subcooler is fed back into the evaporator and the condensing section with an adequate supply being insured by the reservoir. The motive portion of the condensate is returned to the boiler sans subcooling. By proper valving start-up is insured, as well as the ability to switch from heating to cooling.Type: GrantFiled: January 26, 1981Date of Patent: March 30, 1982Inventor: Thomas H. Collard, Jr.
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Patent number: 4311018Abstract: A cryogenic apparatus comprises refrigeration means utilizing a two-stage expansion of compressed helium gas that circulates in a closed loop, whereby a first pumping stage can be maintained at a temperature in the range from 50.degree. K. to 80.degree. K. and a second pumping stage can be maintained at a colder temperature in the range from 10.degree. K. to 20.degree. K. The first pumping stage comprises an array of louvers of chevron configuration. These louvers enclose the second pumping stage, and serve as baffles to shield the pumping surfaces of the second stage from thermal radiation that would reduce the usable refrigeration capacity of the second stage for removing gases from a chamber to be evacuated. The chevroned baffles also protect a cryosorbent coating on the interior surfaces of the second stage from becoming iced or plugged by gas species that cryocondense at the higher temperature of the first stage.Type: GrantFiled: September 22, 1980Date of Patent: January 19, 1982Assignee: Varian Associates, Inc.Inventor: Kimo M. Welch
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Patent number: 4295338Abstract: Two-stage cryogenic pumping apparatus having individual plate members with cryosorbent coatings secured by removable fasteners to permit easy assembly and replacement of the plate members. The plate members are spaced apart to provide relatively unrestricted access to the cryosorbent material for the gases to be adsorbed thereon.Type: GrantFiled: October 18, 1979Date of Patent: October 20, 1981Assignee: Varian Associates, Inc.Inventor: Kimo M. Welch
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Patent number: 4295341Abstract: In a water chilling plant and method, normally with two or more stages of vacuum chilling, the vapor from the chilling stage or stages is presented to an air cooled heat exchanger for condensation in two different flow streams at different stages of compression, so that the cooler air nearer the air inlet works on vapor at a lower stage of compression.Type: GrantFiled: September 4, 1979Date of Patent: October 20, 1981Assignee: A.P.V. Spiro-Gills LimitedInventor: John A. Gale
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Patent number: 4277951Abstract: A cryopump consisting of cryopanels attached to an elongated source of refrigeration in which heat is transferred from cryopumping surfaces to various stages of refrigeration by conduction including a chevron baffle or louver mounted parallel to the long axis of the refrigerator source and directly to the warmest stage of refrigeration.Type: GrantFiled: April 10, 1980Date of Patent: July 14, 1981Assignee: Air Products and Chemicals, Inc.Inventor: Ralph C. Longsworth
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Patent number: 4275566Abstract: Cryopump apparatus includes means for supplying cryogenic fluid, means for supplying higher temperature refrigerant fluid, a panel having heat exchange surfaces on respective opposite sides thereof, with a conduit conducting cryogenic fluid therethrough, and a zigzag passageway formed by opposite sides of two radiation shields in spaced relationship with each other having the panel therebetween. The radiation shields are spaced from the panel, optically enclosing the panel therewithin. Corresponding edges of adjacent shields define open bottom channel-configured passageways for flow of gas therethrough to respective heat exchange surfaces of a panel interjacent the shields. The shields include conduits for flow of refrigerant fluid therethrough. Heat insulative positioning spacer means contact two adjacent panels and a shield therebetween, maintaining the panels and shield in spaced relationship.Type: GrantFiled: April 1, 1980Date of Patent: June 30, 1981Assignee: Pennwalt CorporationInventor: John W. Bonn
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Patent number: 4255938Abstract: A converging/diverging venturi assembly positioned in a subsonic fluid flow stream for producing a supersonic flow velocity in the downstream diverging section with a pressure pickoff system that is located adjacent a minimum static pressure location just prior to a point where shock waves begin to form. The low pressure in the supersonic region in front of the shock wave may be utilized for reducing the boiling temperature of a fluid in a boiler by porting a tube from the low pressure venturi to the boiler, thus improving the heat transfer characteristics of the boiler where the boiler is used for a heat sink for heat sources in a mobile vehicle.Type: GrantFiled: March 19, 1979Date of Patent: March 17, 1981Assignee: Motorola Inc.Inventors: Dean E. Norris, John R. Welling
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Patent number: 4252001Abstract: The invention discloses a method and apparatus for cooling hot foundry sand. The method includes the step of adding water to the hot sand with the quantity of water being related to the Btu content of the sand, vibrating the sand/water mix in a closed container, evacuating the container to evaporate the water and cool the sand, and then removing the cooled sand from the container. Apparatus for carrying out the foregoing steps is also disclosed.Type: GrantFiled: August 3, 1979Date of Patent: February 24, 1981Inventor: Albert Musschoot
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Patent number: 4240262Abstract: A cryopump device comprising a refrigerator section which has at least two expansion chamber cooling elements disposed in a space to be evacuated, a shielding wall disposed in the space encircling both expansion chamber cooling elements and formed by a thermally conductive material, the shielding wall being in heat transfer contact with one of the expansion chamber cooling elements, a condensation panel disposed inside the shielding wall and being in heat transfer contact with the other of the expansion chamber cooling elements, the shielding wall having an opening proximate the condensation panel so that the space is cooled by the other expansion chamber cooling element through the condensation panel.Type: GrantFiled: May 22, 1979Date of Patent: December 23, 1980Assignee: Aisin Seiki Kabushiki KaishaInventors: Kazuaki Nakamura, Yutaka Momose
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Patent number: 4232453Abstract: A tray for holding a biological specimen and a submersible container for freeze-drying the specimen are disclosed. A heating element to melt a synthetic resin for embedding the specimen is also disclosed.Type: GrantFiled: September 25, 1978Date of Patent: November 11, 1980Assignee: C. Reichert Optische Werke, AGInventor: Ludwig Edelmann
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Patent number: RE31665Abstract: Cryopump apparatus includes means for supplying cryogenic fluid, means for supplying higher temperature refrigerant fluid, a panel having heat exchange surfaces on respective opposite sides thereof, with a conduit conducting cryogenic fluid therethrough, and a zigzag passageway formed by opposite sides of two radiation shields in spaced relationship with each other having the panel therebetween. The radiation shields are spaced from the panel, optically enclosing the panel therewithin. Corresponding edges of adjacent shields define open bottom channel-configured passageways for flow of gas therethrough to respective heat exchange surfaces of a panel interjacent the shields. The shields include conduits for flow of refrigerant fluid therethrough. Heat insulative positioning spacer means contact two adjacent panels and a shield therebetween, maintaining the panels and shield in spaced relationship.Type: GrantFiled: June 8, 1983Date of Patent: September 11, 1984Assignee: CVI IncorporatedInventor: John W. Bonn