US2343849A - Radio tube with flattened elements - Google Patents

Radio tube with flattened elements Download PDF

Info

Publication number
US2343849A
US2343849A US454107A US45410742A US2343849A US 2343849 A US2343849 A US 2343849A US 454107 A US454107 A US 454107A US 45410742 A US45410742 A US 45410742A US 2343849 A US2343849 A US 2343849A
Authority
US
United States
Prior art keywords
tube
elements
cathode
plate
grid
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
US454107A
Inventor
Jr Abraham Binneweg
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.)
Individual
Original Assignee
Individual
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
Application filed by Individual filed Critical Individual
Priority to US454107A priority Critical patent/US2343849A/en
Application granted granted Critical
Publication of US2343849A publication Critical patent/US2343849A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J21/00Vacuum tubes
    • H01J21/36Tubes with flat electrodes, e.g. disc electrode

Definitions

  • My invention relates to improvements in radio tubes and the object of my improvement is to provide a vacuum tube for general radio purposes having Ilattened or slightly curved, superimposed plate, grid and cathode elements within a strong dielectric case.
  • Other objects are to provide a tube consisting of disks and plastic rings clamped together by bolts, or other means, in such a manner as easily to be taken apart for the exchange or replacement of parts; to provide a design and arrangement of elements suitable for very high frequency oscillation; and to provide radiating low inductance connections for the various elements.
  • a still further object is to provide a tube with two plates, grids, and cathodes within the same envelope-each pair of elements arranged to lie edge to edge in the same plane and so to have low electric capacity. Other objects will appear from the following description and draw ing.
  • Figure I is a vertical section of a tube with single elements.
  • Figure II is a top view of a tube with double elements and with the cap removed.
  • Figures III and IV are top views of diiferent forms of grids.
  • Figure V is a side view of a flattened cathode
  • Figure VI is a top view of a double plate element
  • Figure VII is a side view of the same
  • Figure VIII is a frag-mental section showing an optional arrangement
  • the lbase I is a disk of hard plastic, porcelain or other dielectric material, having a projection 2 with a. perforation 3 for attachment to a radio cabinet.
  • a large circular opening 4 In the center of the base is a large circular opening 4.
  • a metal disk 5 Upon the base I, within a depression, lies a metal disk 5 having a plate lead 6.
  • This plate element 5 may be air or water-cooled through the opening 4, and is tightly sealed to the base I by a ring of soft plastic or cement l.
  • Grooves 8 in the porcelain or hard plastic ring 9 serve more tightly to seal the joint between it and the soft plastic or cementing material l, and to reduce the capacity effect betweengrid I and ring 9.
  • Grid I0 is a circular metal plate to control the now of electrons between cathode I2 and plate through perforations II.
  • the cathode I2 may be a cylindrical or ilattened tube with ends embedded in a porcelain, or hard plastic ring 9, and containing the usual heater filament with leads I3.
  • Conductors I4 provide electric connections with the cathodes, and conductors 20 with the grids.
  • a dome I5 of any suitable pressedmaterial provides a form for the final cap I6 of plastic or cement material.
  • Tube I1 either threaded, cemented or Welded into the plastic or metal cap I6 provides a means for exhausting the tube of air.
  • Bolts I8 removably clamp together the successive disks, and rings of mica, cement, porcelain or plastic material which form the tube.
  • the cementing material may be soft or hard depending upon whether the seal is to be temporary or permanent. If a permanent seal is desired bolts I8 may be supplanted by reinforcing wires.
  • the tube is built up of successive layers of plastic or cement material or of alternate layers of preformed material and of cementing or sealing material.
  • Exhaust tube IT may be long enough to pinch off, cut, and pinch off again after a second eX- hausting of the air, or replaceable if threaded into the cap. If the exhaust tube is metal, it can be flattened and soldered or welded.
  • the grid may be .a perforated plate as shown in Figure II or a circle of wire I9 with cross wires 2
  • Cathode I2 may be provided with an activated coat 25 on the side toward the grid, as shown in Figure V.
  • the tube may be provided with a single cathode, grid and plate as shown in Figure I, or could obviously be built up to contain as many successive sets of such elements, one above the other or in one plane as desiredall within the same tube. as shown in Figure VIII.
  • FIG II Another arrangement is shown in Figure II, where double elements are shown in the same plane on opposite sides of the tube.
  • the arrangement is especially effective for ultra high frequency purposes, since the edges of like elements present small capacity area.
  • Figure IV shows another double grid arrangement having prongs 22; and Figure VI a double plate with semicircular halves 23.
  • the cathode is another double grid arrangement having prongs 22; and Figure VI a double plate with semicircular halves 23. The cathode.
  • the two parts into which the flat plate is divided need not be of the same size.
  • the grid of Fig, III could also be divided into two parts, usually of such size as to properly cooperate with corresponding plate parts. When a divided plate is used, two openings in the under part of the case are provided, one for each plate part; or there could be a series of small holes with a slight space at the inside of each plate part, between plate and lower case, so the plate, or the plate parts, could serve for microphone purposes.
  • any desired number of leads can be brought out from each of whatever elements are employed. Changing the leads, or changing the elements employed, will change the highest frequency at which the tube will oscillate.
  • the inside of the case could have vertical grooves or be cut away so that not so muc-h material holds, for example, a flat grid.
  • the under side o1' the case could also be grooved for better plate cooling if necessary.
  • the exhaust tube could be a vertical metal tube Welded to the exposedplate at the bottom of the tube, and welded closed after exhausting.
  • a radio tube having a dat base, grooved rings superimposed upon said base and sealed tightly together, plate, grid and cathode elements held in spaced relation by said grooved' rings, aV
  • a radio tube having a casing, pairs of plate, grid, and cathode elements within said casing, means holding in spaced relation edge to edge the members of each pair, and means holding in su perimposed spaced relation said pairs.
  • An electron discharge tube having a iiat base, iiat semicircular anodes upon said base in spaced relation to each other and in the same plane, an insulating ring above said anodes, forked meshing grids supported by said ring and in spaced relation to each other, a second insulating ring above said grids, a iiattened cathode above said second ring, a third insulating ring above said cathode, a cap above the uppermost of said rings, and clamping and cementing means holding together said base, rings and cap to form an air-tight compartment.
  • An electron discharge tube having a dat insulating ibase, multiple flat and spaced anodes upon said base, an insulating ring above said anodes, multiple flat spaced grids above said ring, a second insulating ring above said grids, ⁇ a cathode above said second ring, a cap above said cathode, and clamping means bringing together said base, rings, and cap to form an air-tight compartment.
  • An electron discharge tube having a base. an aperture in said base, a sheet anode covering said aperture, an insulating ring ⁇ above said anode, a perforated sheet grid above said ring, a second insulating ring above said grid, a cathode above said second ring, a cap above said cathode, and means clamping together said base, rings, and cap t0 form an air-tight tube.

Description

March 7, 1944. A. BINNEWEG, JR 2,343,349
RADIO TUBE.WITH FLATTENED ELEMENTS Filed Aug. 8, 1942 I 4; JV..
INVENTOR Patented Mar. 7, 1944 .UNITED STATES PATENT OFFICE RADIO .TUBE WITH FLATTENED- ELEMENTS Abraham inneweg, Jr., oakland, Calif. y
Application August 8, 1942, Serial No. 454,107
7 Claims.
' My invention relates to improvements in radio tubes and the object of my improvement is to provide a vacuum tube for general radio purposes having Ilattened or slightly curved, superimposed plate, grid and cathode elements within a strong dielectric case. Other objects are to provide a tube consisting of disks and plastic rings clamped together by bolts, or other means, in such a manner as easily to be taken apart for the exchange or replacement of parts; to provide a design and arrangement of elements suitable for very high frequency oscillation; and to provide radiating low inductance connections for the various elements. A still further object is to provide a tube with two plates, grids, and cathodes within the same envelope-each pair of elements arranged to lie edge to edge in the same plane and so to have low electric capacity. Other objects will appear from the following description and draw ing.
Figure I is a vertical section of a tube with single elements. Figure II is a top view of a tube with double elements and with the cap removed. Figures III and IV are top views of diiferent forms of grids. Figure V is a side view of a flattened cathode, Figure VI is a top view of a double plate element, Figure VII is a side view of the same and Figure VIII is a frag-mental section showing an optional arrangement,
The lbase I is a disk of hard plastic, porcelain or other dielectric material, having a projection 2 with a. perforation 3 for attachment to a radio cabinet. In the center of the base is a large circular opening 4. Upon the base I, within a depression, lies a metal disk 5 having a plate lead 6. This plate element 5 may be air or water-cooled through the opening 4, and is tightly sealed to the base I by a ring of soft plastic or cement l. Grooves 8 in the porcelain or hard plastic ring 9 serve more tightly to seal the joint between it and the soft plastic or cementing material l, and to reduce the capacity effect betweengrid I and ring 9. Grid I0 is a circular metal plate to control the now of electrons between cathode I2 and plate through perforations II. The cathode I2 may be a cylindrical or ilattened tube with ends embedded in a porcelain, or hard plastic ring 9, and containing the usual heater filament with leads I3. Conductors I4 provide electric connections with the cathodes, and conductors 20 with the grids.
A dome I5 of any suitable pressedmaterial provides a form for the final cap I6 of plastic or cement material. Tube I1 either threaded, cemented or Welded into the plastic or metal cap I6 provides a means for exhausting the tube of air. Bolts I8 removably clamp together the successive disks, and rings of mica, cement, porcelain or plastic material which form the tube.
The cementing material may be soft or hard depending upon whether the seal is to be temporary or permanent. If a permanent seal is desired bolts I8 may be supplanted by reinforcing wires. The tube is built up of successive layers of plastic or cement material or of alternate layers of preformed material and of cementing or sealing material.
Exhaust tube IT may be long enough to pinch off, cut, and pinch off again after a second eX- hausting of the air, or replaceable if threaded into the cap. If the exhaust tube is metal, it can be flattened and soldered or welded.
The grid may be .a perforated plate as shown in Figure II or a circle of wire I9 with cross wires 2| welded to it as shown in Figure III. Cathode I2 may be provided with an activated coat 25 on the side toward the grid, as shown in Figure V.
The tube may be provided with a single cathode, grid and plate as shown in Figure I, or could obviously be built up to contain as many successive sets of such elements, one above the other or in one plane as desiredall within the same tube. as shown in Figure VIII.
Another arrangement is shown in Figure II, where double elements are shown in the same plane on opposite sides of the tube. The arrangement is especially effective for ultra high frequency purposes, since the edges of like elements present small capacity area.
Figure IV shows another double grid arrangement having prongs 22; and Figure VI a double plate with semicircular halves 23. The cathode.
could also be divided longitudinally or otherwise if desired. A retaining ring of soft plastic or other material acts as a gasket 24 to hold in place the cathode I2. The two parts into which the flat plate is divided need not be of the same size. The grid of Fig, III could also be divided into two parts, usually of such size as to properly cooperate with corresponding plate parts. When a divided plate is used, two openings in the under part of the case are provided, one for each plate part; or there could be a series of small holes with a slight space at the inside of each plate part, between plate and lower case, so the plate, or the plate parts, could serve for microphone purposes.
Any desired number of leads can be brought out from each of whatever elements are employed. Changing the leads, or changing the elements employed, will change the highest frequency at which the tube will oscillate.
The inside of the case could have vertical grooves or be cut away so that not so muc-h material holds, for example, a flat grid. The under side o1' the case could also be grooved for better plate cooling if necessary. The exhaust tube could be a vertical metal tube Welded to the exposedplate at the bottom of the tube, and welded closed after exhausting.
Having described the invention, I claim:
1. A radio tube having a dat base, grooved rings superimposed upon said base and sealed tightly together, plate, grid and cathode elements held in spaced relation by said grooved' rings, aV
grid, a flattened cathode above said grid, an nsulating ring holding said cathode in spaced relation to said grid, a retaining ring above said insulating ring, a cap above said retaining ring, and bolts clamping together all of said flattened plate, grid, and cathode elements, said rings and said cap to form a sealed tube.
3. A radio tube having a casing, pairs of plate, grid, and cathode elements within said casing, means holding in spaced relation edge to edge the members of each pair, and means holding in su perimposed spaced relation said pairs.
4. .A radio tube having a iiat base, flat plate,
grid, and cathode elements superimposed in succession above said base and above each other, retaining means for holding said elements in spaced insulated relation and forming a sealed lateral wall, a sealing cap above said elements, and bolts clamping together said base, said retaining means and said cap to form a sealed compartment.
5. An electron discharge tube having a iiat base, iiat semicircular anodes upon said base in spaced relation to each other and in the same plane, an insulating ring above said anodes, forked meshing grids supported by said ring and in spaced relation to each other, a second insulating ring above said grids, a iiattened cathode above said second ring, a third insulating ring above said cathode, a cap above the uppermost of said rings, and clamping and cementing means holding together said base, rings and cap to form an air-tight compartment.
6. An electron discharge tube having a dat insulating ibase, multiple flat and spaced anodes upon said base, an insulating ring above said anodes, multiple flat spaced grids above said ring, a second insulating ring above said grids, `a cathode above said second ring, a cap above said cathode, and clamping means bringing together said base, rings, and cap to form an air-tight compartment.
7. An electron discharge tube having a base. an aperture in said base, a sheet anode covering said aperture, an insulating ring `above said anode, a perforated sheet grid above said ring, a second insulating ring above said grid, a cathode above said second ring, a cap above said cathode, and means clamping together said base, rings, and cap t0 form an air-tight tube.
ABRAHAM BINNEWEG, J R.
US454107A 1942-08-08 1942-08-08 Radio tube with flattened elements Expired - Lifetime US2343849A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US454107A US2343849A (en) 1942-08-08 1942-08-08 Radio tube with flattened elements

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US454107A US2343849A (en) 1942-08-08 1942-08-08 Radio tube with flattened elements

Publications (1)

Publication Number Publication Date
US2343849A true US2343849A (en) 1944-03-07

Family

ID=23803330

Family Applications (1)

Application Number Title Priority Date Filing Date
US454107A Expired - Lifetime US2343849A (en) 1942-08-08 1942-08-08 Radio tube with flattened elements

Country Status (1)

Country Link
US (1) US2343849A (en)

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2419757A (en) * 1944-05-31 1947-04-29 Jr Abraham Binneweg Mounted flat element radio tube
US2431020A (en) * 1944-09-11 1947-11-18 Jr Abraham Binneweg Assembly means for radio tubes
US2440889A (en) * 1944-08-15 1948-05-04 Jr Abraham Binneweg Radio tube insulation
US2467420A (en) * 1943-11-18 1949-04-19 Jr Abraham Binneweg Short-wave adjustable radio tube
US2575448A (en) * 1945-08-22 1951-11-20 Sylvania Electric Prod Electron discharge device
US2731579A (en) * 1952-09-30 1956-01-17 Sylvania Electric Prod Electron discharge device
US2740067A (en) * 1952-10-13 1956-03-27 Eitel Mccullough Inc Ceramic vacuum tube
US2754445A (en) * 1952-08-01 1956-07-10 Eitel Mccullough Inc Ceramic vacuum tube
US2840736A (en) * 1955-10-17 1958-06-24 Westinghouse Electric Corp Electron discharge device
US2897394A (en) * 1953-08-31 1959-07-28 Jr Charles P Marsden Ceramic wafer, electronic tube
US2899590A (en) * 1959-08-11 Ceramic vacuum tube

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2899590A (en) * 1959-08-11 Ceramic vacuum tube
US2467420A (en) * 1943-11-18 1949-04-19 Jr Abraham Binneweg Short-wave adjustable radio tube
US2419757A (en) * 1944-05-31 1947-04-29 Jr Abraham Binneweg Mounted flat element radio tube
US2440889A (en) * 1944-08-15 1948-05-04 Jr Abraham Binneweg Radio tube insulation
US2431020A (en) * 1944-09-11 1947-11-18 Jr Abraham Binneweg Assembly means for radio tubes
US2575448A (en) * 1945-08-22 1951-11-20 Sylvania Electric Prod Electron discharge device
US2754445A (en) * 1952-08-01 1956-07-10 Eitel Mccullough Inc Ceramic vacuum tube
US2731579A (en) * 1952-09-30 1956-01-17 Sylvania Electric Prod Electron discharge device
US2740067A (en) * 1952-10-13 1956-03-27 Eitel Mccullough Inc Ceramic vacuum tube
US2897394A (en) * 1953-08-31 1959-07-28 Jr Charles P Marsden Ceramic wafer, electronic tube
US2840736A (en) * 1955-10-17 1958-06-24 Westinghouse Electric Corp Electron discharge device

Similar Documents

Publication Publication Date Title
US2343849A (en) Radio tube with flattened elements
US3154711A (en) Electron beam focusing by means of contact differences of potential
US2883576A (en) Thermionic valves
US2184756A (en) Electric discharge device
US2433813A (en) Electric discharge tube
US2295569A (en) Gaseous electron discharge device
US2084858A (en) Metal radio tube
US2362468A (en) Getter
US2218331A (en) Grid-controlled discharge tube
US1992493A (en) Discharge device
US2156048A (en) Electric discharge device
US2084913A (en) Seal for electron discharge devices
US1581520A (en) Vacuum tube
US2515945A (en) Metal radio tube
US2263169A (en) Indirectly heated cathode
US1949396A (en) Vacuum tube device
US2009221A (en) Gaseous electric discharge device
US2419757A (en) Mounted flat element radio tube
US2061254A (en) Electric discharge device
US2372649A (en) Radio tube
US2098380A (en) Gas discharge device
US1904436A (en) Thermionic tube
US2111602A (en) Electron discharge device
US2612613A (en) Electric discharge device
US2052103A (en) Electric discharge tube