US1913427A - Electric discharge device - Google Patents

Electric discharge device Download PDF

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Publication number
US1913427A
US1913427A US482425A US48242530A US1913427A US 1913427 A US1913427 A US 1913427A US 482425 A US482425 A US 482425A US 48242530 A US48242530 A US 48242530A US 1913427 A US1913427 A US 1913427A
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US
United States
Prior art keywords
cathode
anodes
anode
ribbon
supported
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US482425A
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English (en)
Inventor
Donald S Bond
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
AT&T Corp
Original Assignee
Bell Telephone Laboratories Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to NL32239D priority Critical patent/NL32239C/xx
Application filed by Bell Telephone Laboratories Inc filed Critical Bell Telephone Laboratories Inc
Priority to US482425A priority patent/US1913427A/en
Priority to GB16230/31A priority patent/GB379736A/en
Priority to DEI42021D priority patent/DE675603C/de
Application granted granted Critical
Publication of US1913427A publication Critical patent/US1913427A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J17/00Gas-filled discharge tubes with solid cathode
    • H01J17/50Thermionic-cathode tubes
    • H01J17/58Thermionic-cathode tubes with more than one cathode or anode

Definitions

  • An object of the invention is to obtain a 5:1arge current output from a full wave rectifying device.
  • Another object of the invention is to eliminate arcing between the anodes of the dis- 1 charge device.
  • the broad aspect of the invention consists in supporting two parallel spaced anodes in a vessel containing a vapor producing substance and positioning the electron emltting element or cathode between the anode so that the cathode completely shields each anode during each half cycle of operation and preventsxinter-action or arcing between them.
  • the full wave rectifying device comprises an'enclosing vessel supporting twospaced upright rods connected at one end by an insulating plate, the rods supporting a ribbon cathode or filament wound in the form of a helix on the rods with adjacent turns of the ribbon insulated by spacers and an anode in the form of a rectangular metallic plate which is po sitioned on each side of the ribbon filament structure.
  • the enclosing vessel is filled with a gas or a vapor producing substance, such as mercury, to a suitable pressure; to form the conducting medium between the electrodes.
  • the construction of the electron emitting electrode or. cathode forms an electrostatic shield between the two anodes. This is accomplished by the form of the helical cathode wound on the support in parallel planes with the sections on one side blocking the spaces between the edges of the adjacent sections on the-other side.
  • the electron emitting cathode therefore, serves two functions, one being its usual 50 function of supplying electrons in the stream to each anode and the other being the shielding effect, either physical or electrical or both, so that there is no direct path from one anode to the other through the cathode winding, and while the electrons are easily deflected through the narrow spaces between, the turns of the cathode, the mercury ions, because of their greater mass and lower mobility, cannot flow from one anode to the other.
  • a l r A feature of the invention relates to substantially surrounding the cathode with a heat reflecting shield to confine the heat generated in the cathode and thereby maintain the cathode at a'uniform operating temperature.
  • the heat shield comprises a hollow bright metallic member substantially enclosing the cathode and provided with openings through which the electrons can pass to the anodes.
  • Another feature of the invention relates to providing anode surfaces of large area to dissipate the heat generated in the device during operation.
  • the anode is in the form of a semi-cylindrical structure closed on the ends to prevent buckling of the anode and provided with a small aperture so that the operator can observe the character of the discharge between the electrodes of the device.
  • Fig. 2 is a perspective view showing in detail the cathode and supporting structure of the device shown in Fig 1;
  • Fig. 3 is an enlarged detailed view of a portion of the cathode supporting structure partly in cross-section, shown in Fig. 2;
  • Fig. 4 illustrates in perspective another form of the invention w1th a portion of the internal electrode structure
  • Fig. 5 is a partly exploded view shown in perspective of the electrode assembly shown in Fig. 4 with portions of the elements broken away to clearly illustrate the invention
  • Fig. 5-A is a plan view of the top of the electrode assembly shown in Fig. l to illustrate the Connection of the various electrode supports to the insulator. v
  • Fig. 6 illustrates another form of the in vention with the electrodes supported at opposite ends of the vessel, the vessel being broken away to show the structure and the relationship of the electrode;
  • Fig. '7 is a partial side view of the electrode assembly shown in Fig. 6 showing the spaced parallel anodes supported from one stem and the cathode assembly supported between the anodes;
  • the electric discharge device made in accordance with this invention comprises an. enclosing vessel 10 having a reentrant stem portion 11 terminating in a press 12 which supports the electrodes.
  • the vessel 10 is provided with a base 13 having terminals 14 to which the leading-in wires of the electrodes are connected and which form external connections for the electrodes.
  • An incandescent ribbon cathode or filament 15 and a plate anode 16 arranged in parallel relation on each side of the filament 15 form the electrodes of a full wave rectifier having a high current output.
  • the cathode supporting structure comprises two leading-in wires 17 and 18 sealed through the press 12 and bent at right angles within the enclosing vessel.
  • An upright supporting rod 19 is attached in any suitable manner, to each angular termination of the leading-in wires and the rods 19 are connected at their free ends by an insulating plate 20, of porcelain or lavite.
  • the cathode 15 consists of a long length of nickel ribbon coated with alkaline earth oxides, such as barium and strontium oxides and is wound helically around the supporting rods 19, held in spaced relation by the insulating plate 20 and the leading-in wires 17 and 18.
  • a pair of anodes 16 is supported on opposite sides of the cathode structure and consists of rectangular metallic plates having a central longitudinal ridge 25 which strengthens the anode plate against buckling from heat during operation and provides a groove for welding the anode to the supporting wire 26 which is a continuation of the leading-in wire for the anode, the upper end of the supporting wire 26 being anchored in the insulating plate 20 as shown at 27.
  • a similar wire 28 is attached to the opposite anode and anchored at the upper end in the plate 20 as shown at 29.
  • a vaporizable substance such as magnesium
  • the magnesium is shown as a small piece of ribbon 30 contained in a dished disc 31 supported by a wire 32 connected to the leading-in wire 17 of the cathode.
  • An easily ionizable gas or a vapor producing substance may be injected into the device to serve as the conducting medium.
  • a body of mercury 33 is sealed in the enclosing ves-, sel 10 to form the conducting medium.
  • This arrangement forms a physical shield between the two anodes so that there is no direct path from one anode to the other through the wound cathode.
  • the large emitting surface of the .cathode also forms an electrostatic shield due to the large mass of electrons being emitted from the cathode, the mass of electrons being so great that the mercury ions because of their greater mass and lower mobility do not pass from one anode to the other.
  • the anodes are made relatively large in order to dissipate the heat generated during operation and at the same time these anodes serve as heat shields for the ribbon cathode to confine the heat generated by the cathode within the space containin the cathode so that the heat is reflected bac to the cathode to maintain it at a uniform temperature.
  • Figs. 4 and 5 illustrate another embodiment of the invention and operates on the same Iprinciple as described in connection with ig. 1.
  • the oathode structure is substantially the same as heretofore described except that the cathode ribbon is made wider to provide the proper area to obtain the desired current voltage characteristics forthe cathode.
  • the cathode and supporting structure is surrounded b a heat reflecting shield 34, of bright meta lic material.
  • the shield 34 conforms to the contour of the cathode structure and is held in position by embracing the insulating plate 20.
  • the shield 34 is provided with rectangular openings on opposite surfaces to permit the flow of electrons from the cathode 15.
  • each anode is formed into a semi-cylindrical structure 35 having a closure portion 36 at each end of the semi-cylinder to form a box-like structure which sufiiciently increases the surface area of the anode to dissipate the required heat generated during operation.
  • the closure ends also serve to rigidly maintain the shape of the anode and thereby prevent buckling'of the anode surface.
  • tach anode is supported at one end by two supporting wires 37 and 38 which are connected to the parallel supporting wires 39 and 40 respectively of the anode and anchored in the insulating plate 20 supported at the end of the cathode assembly.
  • a tie member 41 is joined to the opposite ends of the supportin wires 39 and 40 and connected to the lea ing-in wire 26.
  • the cathode assembly does not effectively shield the edges of the anodes in this modification it is desirable to prevent arcing between the edges of the anodes by curved metallic shields 42 and 43 interposed between the adjacent edges of the anode surfaces on the longitudinal boundariesof the cathode structure.
  • These end shields are supported by wires at one end from the insulating plate 20 and connected at their other ends of the leading-in wires 17 and 18.
  • the cathode structure is substantially enclosed by the heat reflecting shield and the configuration of the anodes and end shields prevent any visual observation of the character of the discharge taking place between the cathode and the anodes, it is desirable to form an aperture 44 in the center of the curved surface of each anode, to permit the operator to observe the discharge taking place within the electrode structure.
  • Figs. 6, 7 and 8 another modification of the invention is shown embodyin the same principles as heretofore describe
  • the enclosing vessel 10 is provided with an inwardly projecting stem 11 at one end and another stem'45 at the opposite end.
  • a pair of leading-in wires 46 and 47 extend into the vessel 10 and support thick disc anodes or electrodes 48 and 49, preferably formed of graphite.
  • the electronemitting electrode or cathode of this device consists of a metallic ribbon coated as heretofore described and having a configuration as shown in -Fig. 8 of zig-zag form or accordionpleated form supported with the edges of the cathode facing the anodes 48 and 49.
  • the cathode 50 is surrounded by a metallic box-like structure 51 having heat reflecting properties and provided with a rectangular opening 69 on each side adjacent the edges of the cathode 50.
  • the heat reflecting shield 51 is supported from the stem 11 by leadingin wires 52 and 53 and at the opposite end is connected by a bridging member 54 welded to a centering wire 55 projecting into a glass tube 56 joined to the glass stem 45 on the end of the enclosin vessel 10.
  • the box-like re ecting shield 51 not only confines the heat generated by the filament to the area containing the filament but also serves as one of the conductors for the oathode 50.
  • one end of the cathode 50 is connected to a wire joined to the leading-in conductors 57 and 58 which extend through apertures in the box-like shield 51.
  • the other end'of the cathode 50 is connected to a yoke member 59 which is suspended from the top of the box-shaped shield 51 and connected by a wire 60 which is welded to the centering wire 55 at the top of the box-like structure.
  • leading-in wires 52 and 53 are connected to terminals 61 on the base 62 and the leading-in wires 57 and 58 are connected to the terminal 63 in order to supply heating current to the oathode through the shield enclosure and the leading-in wires 57 and 58.
  • the leading-in wires 46 and 47 of the graphite anodes are connected externally to the terminals 6 L and on the base 66 cemented to the enclosing vessel 10.
  • the support for the magnesium consists of a grooved ring 67 containing a section of magnesium ribbon and supported from the leading-in wire 53 by a connection 68.
  • the enclosing vessel is filled with a quantity of mercury 33 to serve as the conducting medium between the electrodes.
  • An electric discharge device comprising an enclosing vessel, a pair of anode surfaces supported therein and having their major portions facing each other, and a ribbon cathode wound in the form of a flattened helix lying substantially parallel to and supported between said anode surfaces, said cathode preventing direct electrical action between said anodes.
  • An electric discharge device comprising an enclosing vessel, a pair of anodes supported therein, an electron emitting electrode interposed between said anodes, a heat shield surrounding said cathode, and separate end shields disposed at the side of said cathode to preventinteraction between the edges of said anodes.
  • An electric discharge device comprising an enclosing vessel, an electron emitting electrode supported therein, and an anode supported on each side of said electrode, each anode being formed of a hollow semi-cylindrical metallic enclosure having a semi-circular metallic portion on each end thereof.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a plurali ty of supports extending from said stem, an insulating plate attached to said supports, a ribbon cathode wound helically on said supports in parallel planes with the sections in one. plane blocking the spaces between adj scent sections in the other plane, and a plurality of anodes oppositely positioned with respect to each other.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a plurality of supports extending from said stem, an
  • insulating plate attached to said supports, a ribbon cathode wound helically on said supports in parallel planes with the sections in one, plane blocking the spaces between adjacent sections in the other plane, a plurality of anodes mounted in spaced relation to said cathode, and supporting connections from said anodes to said insulating plate.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a plurality of supports extending from said stem, an elongated insulating member attached to said supports, a ribbon cathode wound helically on said supports, means on said supports for insulating and spacing said cathode therefrom, a plurality of anodes mounted in spaced relation to said cathode, and a metallic sheath surrounding said cathode and having central cut-out portions.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a plurality of supports extending from said stem, an insulating plate maintaining said supports in parallel relation, a wide ribbon cathode wound helically on said supports, the ends of said cathode being electrically connected to said supports respectively, a pair of anodes mounted in spaced parallel relation to said cathode, a metallic sheath surrounding said cathode and having openings to permit the flow of electrons from said cathode to said anodes, and means supporting said metallic sheath from said insulating plate.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a plurality of supports extending from said stem, an insulating member attached to said supports, a ribbon cathode wound helically on said supports in parallel planes, an anode supported on each side of said cathode and having a large surface area for heat dissipation, and a metallic apertured sheath surrounding said cathode, said sheath being insulatingly supported out of contact with said cathode.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a pair of upright supports extending from said stem, an insulating plate attached to said supports, a ribbon cathode entwined about said supports and having sections lying in two separate parallel planes, an anode mounted on each side of said cathode and supported from said stem, and a heat confining shield substantially surrounding said cathode having centrally positioned openings therein to permit passage of electrons from the cathode to the anodes.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a plurality of supports extending from said stein,
  • a ribbon ca ode entwined about said supports in parallel planes, and a semi-cylindrical anode supported on each side of said cathode and having an a erture in the curved surface thereof, said aii e having end shields confining the conducting ath to the inner surfaces of said anodes an preventing buckling of said anodes.
  • a vapor discharge device comprising an enclosing vessel having a stem and containing a vapor producing substance, a plurality of SlIEPOI'tS extending from said stem, a ribbon ca ode woiind hehcally on said supports in parallel planes, a semi-cylindrical anode supported on each side of said cathode, and curved longitudinal shield members supported between the edges of said anodes.
  • An electric disc arge device comprising an enclosing vessel, a air of anodes supported therein insulating y from each other, and an electron emitting ribbon cathode supported between the anodes, the electron emittin surface of said cathode havinfg area su stantially equal to the area 0 adjacent surfaces of each of the anodes.
  • An electric discharge device comprising an enclosing vessel, a pair of anodes therein supported and'insulated from each an the other, and a cathode su ported between facing surfaces of said an es, said cathode compris' closely spaced sections of flat material, e cathode occupyin substantially all the space between said an es.

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  • Electron Sources, Ion Sources (AREA)
  • Vessels And Coating Films For Discharge Lamps (AREA)
US482425A 1930-09-17 1930-09-17 Electric discharge device Expired - Lifetime US1913427A (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
NL32239D NL32239C (fr) 1930-09-17
US482425A US1913427A (en) 1930-09-17 1930-09-17 Electric discharge device
GB16230/31A GB379736A (en) 1930-09-17 1931-06-04 Electronic discharge tubes
DEI42021D DE675603C (de) 1930-09-17 1931-07-09 Gas- oder dampfgefuellte Doppelweggleichrichterroehre

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US482425A US1913427A (en) 1930-09-17 1930-09-17 Electric discharge device

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US1913427A true US1913427A (en) 1933-06-13

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US482425A Expired - Lifetime US1913427A (en) 1930-09-17 1930-09-17 Electric discharge device

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US (1) US1913427A (fr)
DE (1) DE675603C (fr)
GB (1) GB379736A (fr)
NL (1) NL32239C (fr)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2432608A (en) * 1941-03-28 1947-12-16 Ncr Co Multianode, gas-filled discharge device
US2476940A (en) * 1947-05-22 1949-07-19 Raytheon Mfg Co Subminiature type vacuum tube structure
US2601528A (en) * 1946-07-13 1952-06-24 Sylvania Electric Prod Structure and internal shielding of electron tubes
US4230968A (en) * 1976-05-26 1980-10-28 Hitachi, Ltd. Cathode structure for magnetrons

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2432608A (en) * 1941-03-28 1947-12-16 Ncr Co Multianode, gas-filled discharge device
US2601528A (en) * 1946-07-13 1952-06-24 Sylvania Electric Prod Structure and internal shielding of electron tubes
US2476940A (en) * 1947-05-22 1949-07-19 Raytheon Mfg Co Subminiature type vacuum tube structure
US4230968A (en) * 1976-05-26 1980-10-28 Hitachi, Ltd. Cathode structure for magnetrons

Also Published As

Publication number Publication date
GB379736A (en) 1932-09-05
NL32239C (fr)
DE675603C (de) 1939-05-15

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