US1684947A - Vacuum discharge apparatus - Google Patents

Vacuum discharge apparatus Download PDF

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Publication number
US1684947A
US1684947A US645483A US64548323A US1684947A US 1684947 A US1684947 A US 1684947A US 645483 A US645483 A US 645483A US 64548323 A US64548323 A US 64548323A US 1684947 A US1684947 A US 1684947A
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Prior art keywords
anode
cathode
glowing
discharge apparatus
disks
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US645483A
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Daumann Wilhelm
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C H F MULLER RONTGENROHRENFABR
C H F MULLER RONTGENROHRENFABRIK
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C H F MULLER RONTGENROHRENFABR
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J19/00Details of vacuum tubes of the types covered by group H01J21/00
    • H01J19/28Non-electron-emitting electrodes; Screens
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J2893/00Discharge tubes and lamps
    • H01J2893/0001Electrodes and electrode systems suitable for discharge tubes or lamps
    • H01J2893/0012Constructional arrangements
    • H01J2893/0013Sealed electrodes

Definitions

  • WILHELM DAUMANN OF HAMBURG, GERMANY, ASSIGNOR TO ⁇ C. H. F. MLLER,
  • My invention relates to improvements in vacuum discharge apparatus and more particularly in the construction of the anode.
  • the anode is arranged so that the .glowing cathode is entirely or in part surrounded thereby from the side.
  • a favorable distribution of the electric 'field is insured, so that particularly the forces of electrostatic attraction are nearly compensated, which would exert an objectionable strain on the glowing wire. Therefore the relative distance of the glowing cathode and the anode and the loss of voltage within the apparatus can be materially reduced.
  • the energy set free is merely a waste energy and causes an unnecessary heating of the anode, the reduction of the energy which is set free is important in the operation of the vacuum apparatus.
  • the reduction of the relative distance of the anode and the glowing cathode is objectionable in other respects.
  • the total surface area of an anode surrounding a glowing cathode for example the surface area of an anode cylinder placed around a rectilinear incandescent wire, is reduced in the same degree as the relative distance of the electrodes is reduced.
  • the effect which can be imposed on the anode is proportional to the surface thereof, and in case of a small surface the unitof the surface area is heated to a high degree; therefore, it is objectionable to place the anode in too close proximity to the glowing cathode and to reduce thereby the surface thereof.
  • the object of the improvements is to provide an apparatus of the class referred to in which the anode is such that it can be placed in close relation to the glowing cathode without causing an excessive Waste effect and Without excessively heating the same, and with this object in View
  • my invention consists in constructing the anode so that its inner part is a small distance away from the glowing cathode, and that its outer part forms surfaces Which are a large distance away from the cathode and cause increased radiation of heat.
  • the construction is such that the inner part of the anode is formed with openings permitting the passage of the radiated heat from the cathode into the surrounding space of the tube, so that it has only a very small heating effect on the anode.
  • Fig. 1 is a diagrammatical sectional view showing one form of my improved electrodes
  • F ig. 2 is a plan View of Fig. 1
  • Figs. 3 to 12 are respectively diagrammatical sectional and plan views similar to those shown in Figs. 1 and 2 and showing modifications,
  • Fig. 13 is a sectional elevation showing a vacuum discharge apparatus provided with my improved electrodes
  • Fig. 14 is a detail sectional view taken on the line 14-14 of Fig. 13, and
  • Fig. 15 is a sectional elevation taken at right angles to the sectional elevation shown in Fig. 13.
  • the glowing cathode 1 is in the form of a rectilinear wire l, and it is Surrounded by an anode 2 in the form of an annular metal cylinder.
  • the body 2 has an axial bore 3 the diameter of which is such that the wall of the bore has the desired distance from the glowing cathode.
  • the glowing wire 1 is Surrounded by a tubular anode 4 provided externally with ribs 5 of any suitable form. As shown the said ribs are in the form of coaxial annular disks. It will be understood that the radiating capacity of the body 4 is very high, its radiating propverty being similar to that of an absolutely black body the radiating power of which attains the maximum according to the researches of Kirchhoff.
  • the anode is in the form of an annular cylinder 6 of comparatively large diameter having internal projections in the form of rods or ribs 7 the inner ends of which are in close relation to the cathode 1.
  • Figs. 7 and 8 I have shown a modification in which the anode consists of a set of perforated disks 9 spaced from each other and held in proper relative positions by suitable means such as rods lO secured to the disks near the outer circumferenees thereof.
  • the cathode 1 passes through axial bores 8 of the disks.
  • anode is composed of axially and radially mounted plates 11 the inner ends ot which are placed around and spaced from the cathode 1.
  • FigsA 11 and 12 show a modification in which the anode is made in two separate scctions 12 and 13.
  • the inner section is in the i'orm ot a foraminated metal cylinder of small diameter'surrounding the cathode at a small distance therefrom, and the outer sec tion 13 of the anode consists of solid plates 13 disposed at the same level as the cathode and covering the saine when seen from two opposite sides.
  • Fi 1S to 15 I have shown a valve tube in which the electrodes are connected with the hase 1-lf of the glass receptacle 15, for which purpose a U-shaped frame 16 of glass or quartz is secured to the base 14 by means of rings 17. On the shanks of the frame 16 several spaced disks 18 are mounted, which engage the shanks by means of lateral notches 19 and which are held in position by means ot' transverse spacing members 20 which form an outer anode portion connecting the disks l5, the latter constituting an inner anode portion. It will be noted that each of the disks or plates 18 is thus connected electrically with the adjoining plate or plates of the set.
  • the set of anode disks 1S is divided into two groups each connected to a terminal 21 and 22 respectively.
  • the plates are provided with bores 23 through which glowing Wires 21 disposed one beside the other within the plane ot the frame 16 are passed, which wires are connected with leading in wires 25 and 26.
  • anode which with its inner part is in close relation to the glowing cathode and with its outer part disposed a large distance away from the cathode radiates the heat, and in which the inner part is foraminatcd, a. large part of the cathode rays emanating from the glowing cathode is collected by the surface of the outer portion of the anode.
  • the heat transmitted to the anode caused in part by radiation of the glowing cathode, and, mainly, by the cathode rays striking against the anode.
  • large proportion ot the cathode rays is collected by the outer part of the anode and at a part where radiation is most effective.
  • a vacuum discharge apparatus comprising an evacuated receptacle, a cathode adapted to be heated to incandescence, and an anode surrounding said cathode and comprising spaced perforated end plates extending transversely to said cathode at different points of its length, and additional perforated plates located between said end plates and spaced from each other and from the end plates, said additional plates likewise extending transversely to said cathode at dierent points of its length, and adjoining plates bemg connected with each other conductively.
  • a vacuum discharge apparatus comprising an evacuated receptacle, an insulating support therein provided with shanks disposed laterally of each other, a cathode adaptedvto be heated to incandescence, located between said shanks, spaced anode disks supported on said shanks and provided with perforations through which said lcathode ex tends, and conducting spacing members bridging the gaps between adjacent anode disks.
  • a vacuum discharge apparatus comprising an evacuated receptacle, an insulating support therein provided with shanks disposed laterally of each other, a cathode adapted to be heated to incandescence, locatedl between said shanks, spaced anode disks notched at their edges to tit on said shanks and perforated at their central portions for the passage of said cathode, and spacing members bridging the gaps between adjacent anode disks.

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Description

Sept. 18, 1928. 1,684,947
r W. DAUMANN VACUUM DISCHARGE APPARATUS Filed June l5, 1923 jg/ jg E@ 7 Patented Sept. 18, 1928*.
UNITED` STATES PATENT OFFICE.
WILHELM DAUMANN, OF HAMBURG, GERMANY, ASSIGNOR TO `C. H. F. MLLER,
RNTGENROHRENFABRIK, OF HAMBURG, GERMANY, A CORPORATION OF GER- MANY.
VACUUM DISCHARGE APPARATUS.
Application led June 15, 1923, Serial No. 645,483, and in Germany .Tune 23, 1922.
My invention relates to improvements in vacuum discharge apparatus and more particularly in the construction of the anode. In apparatus of this class the anode is arranged so that the .glowing cathode is entirely or in part surrounded thereby from the side. Thereby a favorable distribution of the electric 'field is insured, so that particularly the forces of electrostatic attraction are nearly compensated, which would exert an objectionable strain on the glowing wire. Therefore the relative distance of the glowing cathode and the anode and the loss of voltage within the apparatus can be materially reduced. As the energy set free is merely a waste energy and causes an unnecessary heating of the anode, the reduction of the energy which is set free is important in the operation of the vacuum apparatus.
On the other hand the reduction of the relative distance of the anode and the glowing cathode is objectionable in other respects. The total surface area of an anode surrounding a glowing cathode, for example the surface area of an anode cylinder placed around a rectilinear incandescent wire, is reduced in the same degree as the relative distance of the electrodes is reduced. Now the effect which can be imposed on the anode is proportional to the surface thereof, and in case of a small surface the unitof the surface area is heated to a high degree; therefore, it is objectionable to place the anode in too close proximity to the glowing cathode and to reduce thereby the surface thereof.
The object of the improvements is to provide an apparatus of the class referred to in which the anode is such that it can be placed in close relation to the glowing cathode without causing an excessive Waste effect and Without excessively heating the same, and with this object in View my invention consists in constructing the anode so that its inner part is a small distance away from the glowing cathode, and that its outer part forms surfaces Which are a large distance away from the cathode and cause increased radiation of heat. Preferably the construction is such that the inner part of the anode is formed with openings permitting the passage of the radiated heat from the cathode into the surrounding space of the tube, so that it has only a very small heating effect on the anode.
For the purpose of explaining the invention several examples embodying the same have .been shown in the accompanying draw- 1ng, 1n which,
Fig. 1, is a diagrammatical sectional view showing one form of my improved electrodes,
F ig. 2, is a plan View of Fig. 1,
Figs. 3 to 12, are respectively diagrammatical sectional and plan views similar to those shown in Figs. 1 and 2 and showing modifications,
Fig. 13, is a sectional elevation showing a vacuum discharge apparatus provided with my improved electrodes,
Fig. 14, is a detail sectional view taken on the line 14-14 of Fig. 13, and
Fig. 15, is a sectional elevation taken at right angles to the sectional elevation shown in Fig. 13.
In the example shown in Figs. l and 2 the glowing cathode 1 is in the form of a rectilinear wire l, and it is Surrounded by an anode 2 in the form of an annular metal cylinder. The body 2 has an axial bore 3 the diameter of which is such that the wall of the bore has the desired distance from the glowing cathode. By reason of the large outer diameter of the body 2v the outer part of the anode, that is the outer surface of the cylinder and the parts adjacent thereto provide a large radiatinO surface. Therefore the temperature of the anode is kept low, though its inner wall is close to the glowing cathode.
In the modification shown in Figs. 3 and 4 the glowing wire 1 is Surrounded by a tubular anode 4 provided externally with ribs 5 of any suitable form. As shown the said ribs are in the form of coaxial annular disks. It will be understood that the radiating capacity of the body 4 is very high, its radiating propverty being similar to that of an absolutely black body the radiating power of which attains the maximum according to the researches of Kirchhoff.
In the modification shown in Figs. 5 and the anode is in the form of an annular cylinder 6 of comparatively large diameter having internal projections in the form of rods or ribs 7 the inner ends of which are in close relation to the cathode 1.
In Figs. 7 and 8 I have shown a modification in which the anode consists of a set of perforated disks 9 spaced from each other and held in proper relative positions by suitable means such as rods lO secured to the disks near the outer circumferenees thereof. The cathode 1 passes through axial bores 8 of the disks.
In the construction shown in Figs. 9 and l() the anode is composed of axially and radially mounted plates 11 the inner ends ot which are placed around and spaced from the cathode 1.
FigsA 11 and 12 show a modification in which the anode is made in two separate scctions 12 and 13. The inner section is in the i'orm ot a foraminated metal cylinder of small diameter'surrounding the cathode at a small distance therefrom, and the outer sec tion 13 of the anode consists of solid plates 13 disposed at the same level as the cathode and covering the saine when seen from two opposite sides.
In Fi 1S to 15 I have shown a valve tube in which the electrodes are connected with the hase 1-lf of the glass receptacle 15, for which purpose a U-shaped frame 16 of glass or quartz is secured to the base 14 by means of rings 17. On the shanks of the frame 16 several spaced disks 18 are mounted, which engage the shanks by means of lateral notches 19 and which are held in position by means ot' transverse spacing members 20 which form an outer anode portion connecting the disks l5, the latter constituting an inner anode portion. It will be noted that each of the disks or plates 18 is thus connected electrically with the adjoining plate or plates of the set. In the example shown in the figures the set of anode disks 1S is divided into two groups each connected to a terminal 21 and 22 respectively. The plates are provided with bores 23 through which glowing Wires 21 disposed one beside the other within the plane ot the frame 16 are passed, which wires are connected with leading in wires 25 and 26.
In the constructions shown in Figs. 3, 4, 7, 8, 9, 10, 13, 14 and 15 the anode has nearly the radiating power of a black body, its radiating power being very high.
By providing an anode which with its inner part is in close relation to the glowing cathode and with its outer part disposed a large distance away from the cathode radiates the heat, and in which the inner part is foraminatcd, a. large part of the cathode rays emanating from the glowing cathode is collected by the surface of the outer portion of the anode. New, the heat transmitted to the anode caused in part by radiation of the glowing cathode, and, mainly, by the cathode rays striking against the anode. In my improved constrlu'tiou a, large proportion ot the cathode rays is collected by the outer part of the anode and at a part where radiation is most effective.
I claim:
l. A vacuum discharge apparatus comprising an evacuated receptacle, a cathode adapted to be heated to incandescence, and an anode surrounding said cathode and comprising spaced perforated end plates extending transversely to said cathode at different points of its length, and additional perforated plates located between said end plates and spaced from each other and from the end plates, said additional plates likewise extending transversely to said cathode at dierent points of its length, and adjoining plates bemg connected with each other conductively.
2. A vacuum discharge apparatus comprising an evacuated receptacle, an insulating support therein provided with shanks disposed laterally of each other, a cathode adaptedvto be heated to incandescence, located between said shanks, spaced anode disks supported on said shanks and provided with perforations through which said lcathode ex tends, and conducting spacing members bridging the gaps between adjacent anode disks.
3. A vacuum discharge apparatus comprising an evacuated receptacle, an insulating support therein provided with shanks disposed laterally of each other, a cathode adapted to be heated to incandescence, locatedl between said shanks, spaced anode disks notched at their edges to tit on said shanks and perforated at their central portions for the passage of said cathode, and spacing members bridging the gaps between adjacent anode disks.
In testimony whereof I hereunto ailix my signature.
IVILHELM DAUMANN.
US645483A 1922-06-23 1923-06-15 Vacuum discharge apparatus Expired - Lifetime US1684947A (en)

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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2431097A (en) * 1944-09-08 1947-11-18 Philips Lab Inc Electron discharge device
US2446825A (en) * 1942-12-31 1948-08-10 Gen Electric Ultra high frequency electric discharge device
US2458802A (en) * 1942-03-30 1949-01-11 Raytheon Mfg Co Magnetron assembly and method
US2463416A (en) * 1946-05-08 1949-03-01 Arnold T Nordsieck Anode for strapped magnetrons
US2477122A (en) * 1942-05-30 1949-07-26 Rca Corp Electron discharge device
US2476971A (en) * 1942-02-19 1949-07-26 Int Standard Electric Corp Electron discharge apparatus of the velocity modulation type
US2489131A (en) * 1943-11-17 1949-11-22 Rca Corp Electron discharge device of the cavity resonator type
US2593433A (en) * 1941-09-19 1952-04-22 Int Standard Electric Corp Ultrahigh-frequency oscillation generator
US2667601A (en) * 1946-02-18 1954-01-26 Edward M Purcell Slot type magnetron
US2756709A (en) * 1946-04-02 1956-07-31 Jr Lew G Coonrod Jig for vane-type magnetrons

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2593433A (en) * 1941-09-19 1952-04-22 Int Standard Electric Corp Ultrahigh-frequency oscillation generator
US2476971A (en) * 1942-02-19 1949-07-26 Int Standard Electric Corp Electron discharge apparatus of the velocity modulation type
US2458802A (en) * 1942-03-30 1949-01-11 Raytheon Mfg Co Magnetron assembly and method
US2477122A (en) * 1942-05-30 1949-07-26 Rca Corp Electron discharge device
US2446825A (en) * 1942-12-31 1948-08-10 Gen Electric Ultra high frequency electric discharge device
US2489131A (en) * 1943-11-17 1949-11-22 Rca Corp Electron discharge device of the cavity resonator type
US2431097A (en) * 1944-09-08 1947-11-18 Philips Lab Inc Electron discharge device
US2667601A (en) * 1946-02-18 1954-01-26 Edward M Purcell Slot type magnetron
US2756709A (en) * 1946-04-02 1956-07-31 Jr Lew G Coonrod Jig for vane-type magnetrons
US2463416A (en) * 1946-05-08 1949-03-01 Arnold T Nordsieck Anode for strapped magnetrons

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