US2248987A - Electrode assembly - Google Patents

Electrode assembly Download PDF

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Publication number
US2248987A
US2248987A US321424A US32142440A US2248987A US 2248987 A US2248987 A US 2248987A US 321424 A US321424 A US 321424A US 32142440 A US32142440 A US 32142440A US 2248987 A US2248987 A US 2248987A
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Prior art keywords
cathode
arms
electrode assembly
anode
spacers
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Expired - Lifetime
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US321424A
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Norval H Green
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RCA Corp
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RCA Corp
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Priority to US321424A priority Critical patent/US2248987A/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J21/00Vacuum tubes
    • H01J21/20Tubes with more than one discharge path; Multiple tubes, e.g. double diode, triode-hexode
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J2893/00Discharge tubes and lamps
    • H01J2893/003Tubes with plural electrode systems

Definitions

  • My invention relates to electron discharge devices, particularly to unitary electrode assemblies for such devices.
  • Coaxial electrode assemblies have been placed around a straight cathode sleeve, the electrodes of the assemblies being spaced longitudinally along the sleeve and opposite diiferent emitting sections of the cathode.
  • duplex mounts are intricate and otten contain large numbers of small parts that are diflicult to assemble.
  • It is an object of my invention to make a radio' tube comprising one cathode with two emitting sections and two electrode assemblies about each section.
  • the particular electron discharge device shown in the drawing for illustrating my invention comprises a metal envelope i closed at its lower end with a non-reentrant or button type stem 2 into which is sealed the lead-in conductor for the electrodes.
  • a tubular cathode 3 with two spaced emitting sections 4 and 5 and around the lower emitting section is mounted an anode 6 and a grid 1.
  • the anode and grid are supported at their ends in spaced"I parallel insulating spacers 8 and 9, preferably of mica, and the cathode sleeve is passed through registering holes in the two insulating spacers with the upper end, carrying emitting section 4, extending above the upper spacer.
  • the two emitting sections of the sleeve are activated preferably by a coating of the usual active metal oxides.
  • the lower emitting section of the cathode in combination with the grid and anode functions in the usual way as a triode.
  • Additional grids, such as screen grids and suppressor grids, may of course be placed around the control grid, and the cathode, if desired, may be of the filamentary type tautened with a spring on a support rod.
  • diode plates ID are mounted on opposite sides of emitting section I of the extended end of the cathode. These diode plates each comprises a flat sheet of metal pressed out of thin metal stock, such as nickel with integral downwardly extending co-plangzr legs or arms ll.
  • Each anode is substantially U-shaped in plan with the transverse portion of the U somewhat wider than the legs of the U.
  • Each anode and its legs are flat and lie in one plane, except for ribs that may be pressed in the legs for stiffening. Transverse stiffening ribs may, if desired. be pressed in the plates ID.
  • the inner edge of each leg engages a slot in the rim of the upper spacer to position the anodes and to space them the desired distance from the cathode, and the lower end of each leg is passed through the lower spacer and bent over to hold the flat plate in place.
  • the entire electrode assembly is supported on two support rods i2 that are joined at their lower ends to tabs on the header and are passed upward through each of the two spacers.
  • the support rods are placed between the barrel of the lower anode '6 and the legs ll of the upper anodes. Since these support rods are connected to the shell and are grounded they effectively reduce electrostatic coupling between the lower and upper anodes. If the electrode assembly is mounted in a glass envelope, the support rods should be attached to a grounding lead-in conductor.
  • the ends of the anode G and grid 1 are pressed into their openings in the spacers and the cathode sleeve is lowered into place through the upper mica, the hole in the upper mica preferably being made oversize to prevent scraping of the oxide coating. Alignment and' centering of the sleeve in the upper opening is then effected by three beads in the sides of the sleeve. The two flat anodes are then added by slipping their arms downwardly through the slots in the edges of the upper mica and the ends passed through the lower mica and clinched.
  • My improved electrode assembly is easy to manufacture, is rugged in construction and has minimum electrostatic coupling between the anodes.
  • An electron discharge device comprising sheet of metal, two parallel co-planar sheet metal arms integral with one edge of said sheet, parallel spaced insulating spacers engaging the opposed inner edges of said arms. one spacer 7 being adjacent the outer ends of said arms, the end oi one of said arms being secured to said one spacer to prevent lengthwise movement of the arms, a rigid cathode supported by said' 29 spacers. an emitting section of said cathode being opposite and in cooperative relation with said sheet.
  • An electron discharge device comprising an envelope, a stem closing one end of the en velope,
  • a cathode extending through and supported by said spacers, said cathode having two emitting sections, one section being between the spacers and another 10 emitting section beyond one oi the spacers, a
  • tubular anode surrounding the first mentioned section and a planar anode opposite the second mentioned section, said planar anode having two parallel integral rigid arms ilxed to said 15 spacers, support rods for said assembly between said tubular anode and said arms and engaging the sp cers. id support rods being fixed at their lower ends to said stem and electrically grounded.

Description

July 15, 1941. N. H. GREEN ELECTRODE ASSEMBLY Filed Feb. 29, 1940- INVENTOR. NOPVAL H. GREEN BY 7&0}
ATTORNEY.
Patented July 15, 1941 ELECTRODE ASSEMBLY Norval H. Green, Wood-Ridge, N. J., assiznor to Radio Corporation of America, a corporation of Delaware Application February 29, 1940, Serial No. 321,424
3 Claims.
My invention relates to electron discharge devices, particularly to unitary electrode assemblies for such devices.
It is often desirable to use one cathode for two or more electrode assemblies in one envelope. Coaxial electrode assemblies have been placed around a straight cathode sleeve, the electrodes of the assemblies being spaced longitudinally along the sleeve and opposite diiferent emitting sections of the cathode. Such duplex mounts, however, are intricate and otten contain large numbers of small parts that are diflicult to assemble.
It is an object of my invention to make a radio' tube comprising one cathode with two emitting sections and two electrode assemblies about each section.
The characteristic features of my invention are defined in the appended claims and one embodiment is shown in the accompanying drawing and described in the following specification in which Figure 1 is an end view of my electrode assembly, and Figures 2 and 3 are elevational views of the structure of Figure 1.
The particular electron discharge device shown in the drawing for illustrating my invention comprises a metal envelope i closed at its lower end with a non-reentrant or button type stem 2 into which is sealed the lead-in conductor for the electrodes. Within the envelope is a tubular cathode 3 with two spaced emitting sections 4 and 5 and around the lower emitting section is mounted an anode 6 and a grid 1. The anode and grid are supported at their ends in spaced"I parallel insulating spacers 8 and 9, preferably of mica, and the cathode sleeve is passed through registering holes in the two insulating spacers with the upper end, carrying emitting section 4, extending above the upper spacer. The two emitting sections of the sleeve are activated preferably by a coating of the usual active metal oxides. The lower emitting section of the cathode in combination with the grid and anode functions in the usual way as a triode. Additional grids, such as screen grids and suppressor grids, may of course be placed around the control grid, and the cathode, if desired, may be of the filamentary type tautened with a spring on a support rod.
Two diode plates ID are mounted on opposite sides of emitting section I of the extended end of the cathode. These diode plates each comprises a flat sheet of metal pressed out of thin metal stock, such as nickel with integral downwardly extending co-plangzr legs or arms ll.
Each anode is substantially U-shaped in plan with the transverse portion of the U somewhat wider than the legs of the U. Each anode and its legs are flat and lie in one plane, except for ribs that may be pressed in the legs for stiffening. Transverse stiffening ribs may, if desired. be pressed in the plates ID. The inner edge of each leg engages a slot in the rim of the upper spacer to position the anodes and to space them the desired distance from the cathode, and the lower end of each leg is passed through the lower spacer and bent over to hold the flat plate in place.
The entire electrode assembly is supported on two support rods i2 that are joined at their lower ends to tabs on the header and are passed upward through each of the two spacers. Preferably the support rods are placed between the barrel of the lower anode '6 and the legs ll of the upper anodes. Since these support rods are connected to the shell and are grounded they effectively reduce electrostatic coupling between the lower and upper anodes. If the electrode assembly is mounted in a glass envelope, the support rods should be attached to a grounding lead-in conductor.
In manufacture the ends of the anode G and grid 1 are pressed into their openings in the spacers and the cathode sleeve is lowered into place through the upper mica, the hole in the upper mica preferably being made oversize to prevent scraping of the oxide coating. Alignment and' centering of the sleeve in the upper opening is then effected by three beads in the sides of the sleeve. The two flat anodes are then added by slipping their arms downwardly through the slots in the edges of the upper mica and the ends passed through the lower mica and clinched. Shoulders on the inner edges of the arms, bearing against the upper side of thetop spacer, cooperate with the clinched lower ends of the arms against the bottom of the lower spacer to lock the electrodes in a strong unitary assembly. This assembly may then be lowered on to the two support rods l2 and the lead-in connections completed. The diode plates are firmly held in place, and because their two arms are held at two spaced points, the diode v anodeto-cathode spacing remains fixed.
My improved electrode assembly is easy to manufacture, is rugged in construction and has minimum electrostatic coupling between the anodes.
I claim:
1. An electron discharge device comprising sheet of metal, two parallel co-planar sheet metal arms integral with one edge of said sheet, parallel spaced insulating spacers engaging the opposed inner edges of said arms. one spacer 7 being adjacent the outer ends of said arms, the end oi one of said arms being secured to said one spacer to prevent lengthwise movement of the arms, a rigid cathode supported by said' 29 spacers. an emitting section of said cathode being opposite and in cooperative relation with said sheet.
3. An electron discharge device comprising an envelope, a stem closing one end of the en velope,
two spaced insulating spacers, a cathode extending through and supported by said spacers, said cathode having two emitting sections, one section being between the spacers and another 10 emitting section beyond one oi the spacers, a
tubular anode surrounding the first mentioned section and a planar anode opposite the second mentioned section, said planar anode having two parallel integral rigid arms ilxed to said 15 spacers, support rods for said assembly between said tubular anode and said arms and engaging the sp cers. id support rods being fixed at their lower ends to said stem and electrically grounded.
NORVAL H. GREEN.
US321424A 1940-02-29 1940-02-29 Electrode assembly Expired - Lifetime US2248987A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2476646A (en) * 1946-05-17 1949-07-19 Rca Corp Mount structure for electron discharge devices
US2493555A (en) * 1948-05-28 1950-01-03 Rca Corp Mount for electron discharge devices
US2543400A (en) * 1948-12-17 1951-02-27 Rca Corp Grid for electron discharge devices
US20100015843A1 (en) * 2008-06-12 2010-01-21 Light Sources, Inc. End cap, socket, and adaptors for use with a lamp

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2476646A (en) * 1946-05-17 1949-07-19 Rca Corp Mount structure for electron discharge devices
US2493555A (en) * 1948-05-28 1950-01-03 Rca Corp Mount for electron discharge devices
US2543400A (en) * 1948-12-17 1951-02-27 Rca Corp Grid for electron discharge devices
US20100015843A1 (en) * 2008-06-12 2010-01-21 Light Sources, Inc. End cap, socket, and adaptors for use with a lamp
US8308497B2 (en) * 2008-06-12 2012-11-13 Light Sources, Inc. End cap, socket, and adaptors for use with a lamp

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