US2404997A - Production of high vacua - Google Patents
Production of high vacua Download PDFInfo
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- US2404997A US2404997A US521725A US52172544A US2404997A US 2404997 A US2404997 A US 2404997A US 521725 A US521725 A US 521725A US 52172544 A US52172544 A US 52172544A US 2404997 A US2404997 A US 2404997A
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- chamber
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- diffusion pumps
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J41/00—Discharge tubes for measuring pressure of introduced gas or for detecting presence of gas; Discharge tubes for evacuation by diffusion of ions
- H01J41/12—Discharge tubes for evacuating by diffusion of ions, e.g. ion pumps, getter ion pumps
- H01J41/18—Discharge tubes for evacuating by diffusion of ions, e.g. ion pumps, getter ion pumps with ionisation by means of cold cathodes
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J41/00—Discharge tubes for measuring pressure of introduced gas or for detecting presence of gas; Discharge tubes for evacuation by diffusion of ions
- H01J41/12—Discharge tubes for evacuating by diffusion of ions, e.g. ion pumps, getter ion pumps
Definitions
- This invention relates to the production of high vacua, and has for one object the attainment of very low pressures which are substantially independent of the vapour pressure of any working fluid associated with the pumping system.
- Another object is to provide positive pumping action of gases at reduced pressures by ionising said gases and submitting the ionised gases to the action of electrostatic and/or electromagnetic elds.
- a further object of the invention is to provide X-ray means for irradiating the gases to produce ionisation.
- vA still further object is to provide a selfcontained pumping unit embodying X-ray means for ionisation of gas. and including electrodes maintained at high electrostatic potential suitably protected and enclosed for the convenience and safety of the operator.
- Fig. 1 illustrates diagrammatically a side view of one form of migration pump.
- Fig. 2 shows an alternative form.
- Fig. 3 is a side elevation of an apparatus including a backing pump and the migration pump of Fig. 2.
- v VAn X-ray tube l I (Fig. 1) is arranged to irradiate gas in a .tubular glass migration cham- -ber I2 having a high vacuum connexion I3 and electrodes I4,.I4' between which an electrostatic eld of high potential gradient is provided by connecting the electrodes to opposite poles of a high voltage source of direct current.
- the diffusion pumps orrparts thereof may also serve as electrodes, in which case, pump I1 for example would be connected either to electrode ⁇ I4 or to a pole of a higher voltage supply of the same polarity as that connected to I4.
- the Iarms o1 the X-ray tube actually extend ln a plane 4.disposed at right angles to that of the drawing and thus are clear of the diffusiony pumps.
- abacking vpump (not shown, but connected at 2
- the electrodes are then energised and power supplied to the X-ray tube.
- the residual gas will become ionised and will move from I3 towards I4 or I 4 according to the sign of the ionic charge. Since the electrodes are of cylindrical form the ions will on account of their kinetic energy move on into the diiiusion pumps where they may be neutralised if the pump itself comprises an electrode or may be discharged as ions into 20. If the diffusion pumps are of metal they should of course .be insulated from earth potential.
- an X- ray tube 3I is mounted in a steel vessel 32 containing transformer oil 33, and iitted with a gas tight lid 34.
- a metal extension of high vacuum connexion of a glass or porcelain migration chamber 36 extends through lid 34.
- Jointed to flanged ends 31, 3l' of the chamber 3B are respectively ilanged ends 38, 38 of inlet conduits of diffusion pump casings 39, 39 which have outlet conduits 40, 40 discharging into the gaseous space above the oil surface.
- This space forms a common fore-vacuum and is maintained at the requisite low pressure by a mechanical backing pump 49 driven by an electric motor 50 and connected to outlet 4I. Pump 49 discharges through pipe 5I to atmosphere.
- External metal boilers 42, 42 are connected by metal stand pipes 43. 43 to glass pipe sections 44, 44 terminating in metal jet covers 45, 45 which form the electrodes of the migration chamber and are externally connected with the high voltage supply by leads 46, 46' through vacuum-tight insulators 41, 4l.
- the transformer oil in which the X-ray tube, migration chamber and diffusion pump casings are immersed serves not only as an insulator for the electrical leads but also to cool the condensing surfaces of the diffusion pumps and helps to seal the glass to metal joints, and prevents rise of temperature of the envelope of the X-ray tube.
- the pump casings and the arms of the migration chamber may be slightly inclined as shown, whilst additionally or alternately a pip or indent 48 may be formed in the bottom Wall of the chamber to prevent collection of condensate in that part of the chamber.
- the X-ray tube may if desired be exterior to the main vessel and adapted to project rays into said vessel by way of a Window or aperture formed of any non-ray absorbing material in the vessel. To ensure that the rays are directed in the manner desired lead or lead-glass applicators may be used. In addition certain parts of the vessel may be lead lined in order to afford protection to the operator from any rays which may otherwise emerge from the vessel.
- the apparatus may include a migration chamber of arcuate shape the ends of which discharge to a common chamber which may be exhausted by one diffusion pump or in some cases by other types of pump. Also magnetic fields may beV used additionally or in place of the electrostatic fields for the purposes set forth.
- Electrodes may be other electrodes provided in crder to give an electrostatic focussing or accelerating effect or to improve the gas ow past diffusion pump jets or other restrictions.
- the potential applied to an insulated jet cap may be nearer earth potential than the potential of an adjacent electrode.
- One of the migration chamber electrodes may be heated to provide an electronic stream which may be used for initiating or augmenting ionisation of residual gas. If a gas which ionises to form ions of only one sign of charge is to be pumped it is obvious that the migration chamber Awill require merely one means for eduction.
- the X-ray tube or insert may be formed integrally with the migration chamber, the X-ray anode and cathode being contained in a side bulb of said chamber.
- the cooling of the diffusion pump may be effected by an insulated water system or by use of an insulating fluid such as transformer cil.
- Grid or other control of the X-ray tube may be effected by using a circuit responsive to current flowing through a lead to one of the migration chamber electrodes, whilst an indicator responsive to this current may in some instances be used to afford a visual mea-sure of the ionic concentration.
- An apparatus for producing a high vacuum comprising means for irradiating gas to be pumped with X-rays to ionize said gas, and means for applying electrostatic forces to effect pumping action on the ionized gas.
- An apparatus for producing a high vacuum comprising a chamber connected to a space to be evacuated, pumping means connected to said chamber, means, for producing X-rays for ionising gas in said space by irradiation and means for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said pumping means.
- An apparatus for producing a high vacuum comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps disposed respectively on opposite sides of said conduit, a forevacuum chamber into which said diffusion pumps discharge, a backing pump connected between Said forevacuurn chamber and atmosphere, means for producing X-rays for ionising gas in said space by irradiation and means for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
- An apparatus for producing a high vacuum comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps disposed respectively on opposite sides of said conduit, a forevacuum chamber into which said diffusion pumps discharge, a backing pump connected between said forevacuum chamber and atmosphere, means for producing X-rays for ionising gas in said space by irradiation and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials as to provide an electrostatic eld in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
- An apparatus for producing a high vacuum comprising a chamber having a high Vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps disposed respectively on opposite sides of said conduit, a forevacuum chamber into which said diffusion pumps discharge, a backing pump connected between said forevacuum chamber and atmosphere, an X-ray generator disposed in said chamber for ionising gas in said space by irradiation, and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials so as to provide an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
- An apparatus for producing a high vacuum comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having nlets connected to said chamber respectively on opposite sides of said conduit, a forevacuum enclosure into which Said diffusion pumps discharge, a backing pump connected between said forevacuum enclosure and atmosphere, means for irradiating gas in said space with X-rays to ionise said gas, and means for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
- An apparatus for producing a high vacuum comprising a, chamber having a highvacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having inlets connected to said chamber respectively on opposite sides of said conduit, 'a forevacuum enclosure into which said diffusion pumps discharge, a backing pump connected between said forevacuum enclosure and atmosphere, means for irradiating gas in said space with X-rays to ionise said gas, and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
- An apparatus for producing a high vacuum comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having inlets connected to said chamber respectively on opposite sides of said conduit, a forevacuum enclosure into which said diffusion pumps dis'- charge, a backing pump connected between said forevacuum enclosure and atmosphere, an X-ray generator for ionising gas in said space by irradiation, and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials for providing ari-electrostatic field in said chamber to effect migratory movement of said ionsied gas towards said diffusion pumps.
- An apparatus for producing a high vacuum comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having 1nletsconnected to said chamber respectively 0n opposite sides of said conduit and Jet assemblies projecting through said inlets into said chamber, an enclosed vessel containing said chamber and a part of each of said diffusion pumps together with an insulating uid such as transformer oil surrounding said parts of the diffusion pumps for cooling the same, the gaseous space above the fluid in said vessel constituting a forevacuum enclosure into which said diffusion pumps discharge, a backing pump connected between said forevacuum enclosure and atmosphere, an X-ray generator disposed in said chamber for ionising gas in said space by irradiation, and electrodes constituted by part of each jet assembly in said chamber and maintained at different electrostatic potentials so as to provide an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
- An apparatus according tc claim 9 in which there is provided an upwardly extending indent in the bottom wall of the chamber to prevent collection of working fluid condensate in the chamber.
- An apparatus for the production of high vacua comprising an enclosed vessel, an insulating liquid such as transformer oil partly lling said vessel, a generally cylindrical chamber disposed in said liquid and having end portions emerging through the walls of said vessel, a bttom wall sloping downwardly towards said end portions, diffusion pumps formed integral with said chamber one near each end portion thereof and adapted to discharge gas into said vessel above the liquid level therein, a backing pump connected to the vessel to exhaust gas collecting above said liquid level, a conduit of diameter 6 substantially equal to that of said chamber ex'-l tending from the centre of said chamber and emerging outside said vessel and adapted to be connected to a space to be evacuated, electrodes on opposite sides of said conduit in said chamber adapted to be charged to different electrostatic potentials, and an X-ray generator arranged below the liquid level in the vessel to irradiate gas in said chamber, conduit and space to be evacuated.
- an insulating liquid such as transformer oil partly lling said vessel
- a generally cylindrical chamber disposed in said liquid and having end portions emerging
- An apparatus for the production of high vacua comprising an enclosed vessel, an insulating liquid such as transformer oil partly lling said vessel, a generally cylindrical chamber disposed in said liquid and having end portions emerging through the walls of said vessel, a bottom wall sloping downwardly towards said end portions, diffusion pumps formed integral with said chamber one near each end portion thereof and adapted to discharge gas into said vessel above the liquid level therein, an umbrella jet deflector of metal forming part of each diffusion pump, a backing pump connected to the vessel to exhaust gas collecting above said liquid level, a conduit extending from the centre of said chamber and emerging outside said vessel and adapted to be connected to a space to be evacuated, electrodes constituted by said deflectors on opposite sides of said conduit in said chamber adapted to be charged to different electrostatic potentials, and an X-ray generator arranged below the liquid level in the vessel to irradiate gas in said chamber, conduit and space to be evacuated.
- an insulating liquid such as transformer oil partly lling said vessel
- a generally cylindrical chamber disposed in said
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- X-Ray Techniques (AREA)
Description
"JX". TXLLS ET PRODUCTIGN OF HIGH 'VACUA Filed Feb. 9, 1944 5 Sheets-Sheet l INVENTORS.
July 30, 1945- .,s. w. TILLS ET AL PRODUCTION OF HIGH VACUA 1944 3 Sheets-Sheet 2 Filed Feb. 9
July 30, 1946.
J. w. 'nLLs rs1-AL 2,404,997
PRODUCTION OF HIGH VACUA kFiled Feb,l 9, 1944 3 sheets-sheet 5 Patented July 30, 1946 PRODUCTION F HIGH VACUA John William Tills, Upton,
Hoylake, Wirral, and
Wirral, England Wirral, John B. Lovatt, Frank C. Potts, Upton,
Application February 9, 1944, Serial No. 521,725 In Great Britain November 12, 1943 12 Claims.
This invention relates to the production of high vacua, and has for one object the attainment of very low pressures which are substantially independent of the vapour pressure of any working fluid associated with the pumping system.
Another object is to provide positive pumping action of gases at reduced pressures by ionising said gases and submitting the ionised gases to the action of electrostatic and/or electromagnetic elds.
A further object of the invention is to provide X-ray means for irradiating the gases to produce ionisation.
vA still further object is to provide a selfcontained pumping unit embodying X-ray means for ionisation of gas. and including electrodes maintained at high electrostatic potential suitably protected and enclosed for the convenience and safety of the operator.
v'I'hese yand lother objects will be apparent after perusal of the appended description with reference to the annexed drawings in which:
Fig. 1 illustrates diagrammatically a side view of one form of migration pump.
Fig. 2 shows an alternative form. Fig. 3 is a side elevation of an apparatus including a backing pump and the migration pump of Fig. 2.
v VAn X-ray tube l I (Fig. 1) is arranged to irradiate gas in a .tubular glass migration cham- -ber I2 having a high vacuum connexion I3 and electrodes I4,.I4' between which an electrostatic eld of high potential gradient is provided by connecting the electrodes to opposite poles of a high voltage source of direct current.
y The moulded flanged ends I5, I 5 of the tube are, secured respectively by split conical joint rings I1, II to the inlet conduit ilanges of diffusion pumps I8, I8 whose outlet conduits are similarly jointed at I9, I9 to the ends of a glass 'If-piece 20 having a backing pump connexion ZI.
. The diffusion pumps orrparts thereof may also serve as electrodes, in which case, pump I1 for example would be connected either to electrode `I4 or to a pole of a higher voltage supply of the same polarity as that connected to I4. The Iarms o1 the X-ray tube actually extend ln a plane 4.disposed at right angles to that of the drawing and thus are clear of the diffusiony pumps.
In operation of this form of migration pump abacking vpump (not shown, but connected at 2|) is iirst run and then the diffusion pumps are started when the pressure of the system is Ispillolently low Ifor initiation of pumping action.
2 The electrodes are then energised and power supplied to the X-ray tube.
The residual gas will become ionised and will move from I3 towards I4 or I 4 according to the sign of the ionic charge. Since the electrodes are of cylindrical form the ions will on account of their kinetic energy move on into the diiiusion pumps where they may be neutralised if the pump itself comprises an electrode or may be discharged as ions into 20. If the diffusion pumps are of metal they should of course .be insulated from earth potential.
In an alternative arrangement (Fig. 2) an X- ray tube 3I is mounted in a steel vessel 32 containing transformer oil 33, and iitted with a gas tight lid 34. A metal extension of high vacuum connexion of a glass or porcelain migration chamber 36 extends through lid 34. Jointed to flanged ends 31, 3l' of the chamber 3B are respectively ilanged ends 38, 38 of inlet conduits of diffusion pump casings 39, 39 which have outlet conduits 40, 40 discharging into the gaseous space above the oil surface. This space forms a common fore-vacuum and is maintained at the requisite low pressure by a mechanical backing pump 49 driven by an electric motor 50 and connected to outlet 4I. Pump 49 discharges through pipe 5I to atmosphere. External metal boilers 42, 42 are connected by metal stand pipes 43. 43 to glass pipe sections 44, 44 terminating in metal jet covers 45, 45 which form the electrodes of the migration chamber and are externally connected with the high voltage supply by leads 46, 46' through vacuum-tight insulators 41, 4l.
The transformer oil in which the X-ray tube, migration chamber and diffusion pump casings are immersed serves not only as an insulator for the electrical leads but also to cool the condensing surfaces of the diffusion pumps and helps to seal the glass to metal joints, and prevents rise of temperature of the envelope of the X-ray tube.
In order to assist return of condensate of the diiusion pump working fluid, which iluid is preferably an organic substance, to the boiler 42, 42 the pump casings and the arms of the migration chamber may be slightly inclined as shown, whilst additionally or alternately a pip or indent 48 may be formed in the bottom Wall of the chamber to prevent collection of condensate in that part of the chamber.
The X-ray tube may if desired be exterior to the main vessel and adapted to project rays into said vessel by way of a Window or aperture formed of any non-ray absorbing material in the vessel. To ensure that the rays are directed in the manner desired lead or lead-glass applicators may be used. In addition certain parts of the vessel may be lead lined in order to afford protection to the operator from any rays which may otherwise emerge from the vessel.
In other forms of construction the apparatus may include a migration chamber of arcuate shape the ends of which discharge to a common chamber which may be exhausted by one diffusion pump or in some cases by other types of pump. Also magnetic fields may beV used additionally or in place of the electrostatic fields for the purposes set forth.
There may be other electrodes provided in crder to give an electrostatic focussing or accelerating effect or to improve the gas ow past diffusion pump jets or other restrictions. As an example the potential applied to an insulated jet cap may be nearer earth potential than the potential of an adjacent electrode.
One of the migration chamber electrodes may be heated to provide an electronic stream which may be used for initiating or augmenting ionisation of residual gas. If a gas which ionises to form ions of only one sign of charge is to be pumped it is obvious that the migration chamber Awill require merely one means for eduction.
The X-ray tube or insert may be formed integrally with the migration chamber, the X-ray anode and cathode being contained in a side bulb of said chamber.
The cooling of the diffusion pump may be effected by an insulated water system or by use of an insulating fluid such as transformer cil. Grid or other control of the X-ray tube may be effected by using a circuit responsive to current flowing through a lead to one of the migration chamber electrodes, whilst an indicator responsive to this current may in some instances be used to afford a visual mea-sure of the ionic concentration.
We claim:
1. An apparatus for producing a high vacuum, comprising means for irradiating gas to be pumped with X-rays to ionize said gas, and means for applying electrostatic forces to effect pumping action on the ionized gas.
2. An apparatus for producing a high vacuum comprising a chamber connected to a space to be evacuated, pumping means connected to said chamber, means, for producing X-rays for ionising gas in said space by irradiation and means for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said pumping means.
3. An apparatus for producing a high vacuum comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps disposed respectively on opposite sides of said conduit, a forevacuum chamber into which said diffusion pumps discharge, a backing pump connected between Said forevacuurn chamber and atmosphere, means for producing X-rays for ionising gas in said space by irradiation and means for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
fi. An apparatus for producing a high vacuum comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps disposed respectively on opposite sides of said conduit, a forevacuum chamber into which said diffusion pumps discharge, a backing pump connected between said forevacuum chamber and atmosphere, means for producing X-rays for ionising gas in said space by irradiation and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials as to provide an electrostatic eld in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
5. An apparatus for producing a high vacuum comprising a chamber having a high Vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps disposed respectively on opposite sides of said conduit, a forevacuum chamber into which said diffusion pumps discharge, a backing pump connected between said forevacuum chamber and atmosphere, an X-ray generator disposed in said chamber for ionising gas in said space by irradiation, and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials so as to provide an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
6. An apparatus for producing a high vacuum, comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having nlets connected to said chamber respectively on opposite sides of said conduit, a forevacuum enclosure into which Said diffusion pumps discharge, a backing pump connected between said forevacuum enclosure and atmosphere, means for irradiating gas in said space with X-rays to ionise said gas, and means for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
'7. An apparatus for producing a high vacuum, comprising a, chamber having a highvacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having inlets connected to said chamber respectively on opposite sides of said conduit, 'a forevacuum enclosure into which said diffusion pumps discharge, a backing pump connected between said forevacuum enclosure and atmosphere, means for irradiating gas in said space with X-rays to ionise said gas, and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials for providing an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
S. An apparatus for producing a high vacuum, comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having inlets connected to said chamber respectively on opposite sides of said conduit, a forevacuum enclosure into which said diffusion pumps dis'- charge, a backing pump connected between said forevacuum enclosure and atmosphere, an X-ray generator for ionising gas in said space by irradiation, and electrodes of cylindrical form disposed in said chamber and maintained at different electrostatic potentials for providing ari-electrostatic field in said chamber to effect migratory movement of said ionsied gas towards said diffusion pumps.
9. An apparatus for producing a high vacuum, comprising a chamber having a high vacuum conduit adapted for connection to a space to be evacuated, two diffusion pumps having 1nletsconnected to said chamber respectively 0n opposite sides of said conduit and Jet assemblies projecting through said inlets into said chamber, an enclosed vessel containing said chamber and a part of each of said diffusion pumps together with an insulating uid such as transformer oil surrounding said parts of the diffusion pumps for cooling the same, the gaseous space above the fluid in said vessel constituting a forevacuum enclosure into which said diffusion pumps discharge, a backing pump connected between said forevacuum enclosure and atmosphere, an X-ray generator disposed in said chamber for ionising gas in said space by irradiation, and electrodes constituted by part of each jet assembly in said chamber and maintained at different electrostatic potentials so as to provide an electrostatic field in said chamber to effect migratory movement of said ionised gas towards said diffusion pumps.
10. An apparatus according tc claim 9 in which there is provided an upwardly extending indent in the bottom wall of the chamber to prevent collection of working fluid condensate in the chamber.
11. An apparatus for the production of high vacua comprising an enclosed vessel, an insulating liquid such as transformer oil partly lling said vessel, a generally cylindrical chamber disposed in said liquid and having end portions emerging through the walls of said vessel, a bttom wall sloping downwardly towards said end portions, diffusion pumps formed integral with said chamber one near each end portion thereof and adapted to discharge gas into said vessel above the liquid level therein, a backing pump connected to the vessel to exhaust gas collecting above said liquid level, a conduit of diameter 6 substantially equal to that of said chamber ex'-l tending from the centre of said chamber and emerging outside said vessel and adapted to be connected to a space to be evacuated, electrodes on opposite sides of said conduit in said chamber adapted to be charged to different electrostatic potentials, and an X-ray generator arranged below the liquid level in the vessel to irradiate gas in said chamber, conduit and space to be evacuated.
l2. An apparatus for the production of high vacua, comprising an enclosed vessel, an insulating liquid such as transformer oil partly lling said vessel, a generally cylindrical chamber disposed in said liquid and having end portions emerging through the walls of said vessel, a bottom wall sloping downwardly towards said end portions, diffusion pumps formed integral with said chamber one near each end portion thereof and adapted to discharge gas into said vessel above the liquid level therein, an umbrella jet deflector of metal forming part of each diffusion pump, a backing pump connected to the vessel to exhaust gas collecting above said liquid level, a conduit extending from the centre of said chamber and emerging outside said vessel and adapted to be connected to a space to be evacuated, electrodes constituted by said deflectors on opposite sides of said conduit in said chamber adapted to be charged to different electrostatic potentials, and an X-ray generator arranged below the liquid level in the vessel to irradiate gas in said chamber, conduit and space to be evacuated.
JOHN WM. TILLS.
JOHN B. LOVATT F. C. POTTS.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB18822/43A GB568968A (en) | 1943-11-12 | 1943-11-12 | Improved method of and apparatus for producing high vacua |
GB2404997X | 1943-11-12 |
Publications (1)
Publication Number | Publication Date |
---|---|
US2404997A true US2404997A (en) | 1946-07-30 |
Family
ID=26253625
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US521725A Expired - Lifetime US2404997A (en) | 1943-11-12 | 1944-02-09 | Production of high vacua |
Country Status (2)
Country | Link |
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US (1) | US2404997A (en) |
GB (1) | GB568968A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2636664A (en) * | 1949-01-28 | 1953-04-28 | Hertzler Elmer Afton | High vacuum pumping method, apparatus, and techniques |
US2765975A (en) * | 1952-11-29 | 1956-10-09 | Rca Corp | Ionic wind generating duct |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2715993A (en) * | 1952-06-06 | 1955-08-23 | W M Welch Mfg Company | Ionization pump |
-
1943
- 1943-11-12 GB GB18822/43A patent/GB568968A/en not_active Expired
-
1944
- 1944-02-09 US US521725A patent/US2404997A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2636664A (en) * | 1949-01-28 | 1953-04-28 | Hertzler Elmer Afton | High vacuum pumping method, apparatus, and techniques |
US2765975A (en) * | 1952-11-29 | 1956-10-09 | Rca Corp | Ionic wind generating duct |
Also Published As
Publication number | Publication date |
---|---|
GB568968A (en) | 1945-04-27 |
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