[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

US3265920A - Electron-discharge device cathode assembly with radiation shield - Google Patents

Electron-discharge device cathode assembly with radiation shield Download PDF

Info

Publication number
US3265920A
US3265920A US376799A US37679964A US3265920A US 3265920 A US3265920 A US 3265920A US 376799 A US376799 A US 376799A US 37679964 A US37679964 A US 37679964A US 3265920 A US3265920 A US 3265920A
Authority
US
United States
Prior art keywords
cathode
support
cylinder
subassembly
electron
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
US376799A
Inventor
Joseph P Fiore
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.)
Rauland Borg Corp
Original Assignee
Rauland Borg Corp
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 Rauland Borg Corp filed Critical Rauland Borg Corp
Priority to US376799A priority Critical patent/US3265920A/en
Application granted granted Critical
Publication of US3265920A publication Critical patent/US3265920A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J29/00Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00
    • H01J29/46Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement
    • H01J29/48Electron guns
    • H01J29/485Construction of the gun or of parts thereof

Definitions

  • the present invention is directed to the cathode assembly of the electron gun of an electron discharge device, such as a cathode-ray tube. While of general utility, the cathode assembly of this invention is most particularly applicable to the three-gun variety of color picture tube.
  • Color tubes employing three guns are designed with the objective of establishing and maintaining color balance particularly as that characteristic is influenced by the structural features of the electron guns. Optimum operation of the tube and the receiver in which it may be incorporated is dependent upon stability of the gun characteristics which by distinct preference are maintained uniform for each of the guns.
  • One structural arrangement features a cylindrical cathode concentrically disposed within a cylindrical first grid and maintained in position by means of a ceramic washer.
  • the cathode is inserted into an aperture of the washer and any of a number of mechanical eX- pedients are resorted to in order to locate and aflix the washer within the grid cylinder.
  • dimensional changes experienced within the cathode assembly because of temperature changes between the deenergized and the operating states of the tube may occasion cracking or deformation of the ceramic washer which may result in positional changes of the elements constituting the electron gun.
  • any such change adversely affects the balance of the gun characteristics. Even though there may be no fractures suffered in the structural elements due to temperature changes, if their expansions are non-uniform or if there is any non-uniform displacement of the gun parts, as between the three guns, the desired balance is upset.
  • a cathode assembly for the electron gun of an electron discharge device constructed in accordance with the invention, comprises a cathode cylinder which bears electron emitting material on one end.
  • a radiation-shield cylinder is disposed in nested concentric relation to, and has a mean diameter greater than that of, the cathode cylinder.
  • a first plurality of support elements is angularly disposed about the periphery of one of these cylinders, at the end portion which is remote from the emitting surface of the cathode. These support elements project radially into limited-area contact with the opposed end portion of the other of the cylinders to secure them in a mechanical subassembly.
  • the second plurality of support elements is displaced with respect to the first plurality to establish a series of separated, thermally conductive paths between the cathode cylinder and the support individually having a length that is long compared to the physical separation of the cathode cylinder and its support.
  • the heater efiiciency is increased and this objective may be accomplished by displacing the first and second plurality of support elements through an angular and/or a longitudinal displacement. In the preferred construction, these elements have both an angular and longitudinal or axial displacement.
  • FIGURE 1 is a perspective view of an electron gun mount assembly for a color television picture tube embodying the invention
  • FIGURE 2 is an exploded view of the cathode arrangement of the gun
  • FIGURE 3 is a cross-sectional view taken on section line 3-3 of FIGURE 1;
  • FIGURE 4 is a view, partially in cross-section, of the gun arrangement taken on section line 44 of FIG- URE 3.
  • the gun mount assembly of FIGURE 1 is for use in a tri-color television picture tube and is particularly applicable to the shadow-mask variety of color tube presently in use.
  • the assembly incorporates three electron guns positioned in a triangular or delta array but only one such gun is visible in the view of FIGURE 1.
  • the guns are secured in the desired array by means of three longitudinally extending insulating support members or pillars 10, only two of which are visible in FIGURE 1.
  • the electron guns are structurally alike and each includes a thermionic cathode assembly 11 to be described more particularly hereinafter, a first control grid 12, a screen grid or first anode 13 and a pair of focusing electrodes 14, 15.
  • the subassembly comprises a cylindrical member 16.
  • the cylinder is supported in coaxial alignment with the remainder of the gun mount by mechanical connections with each of electrodes 15 which are individually welded to the closure plate of the cylinder.
  • Contact springs 17 extend forwardly of convergence cylinder 16 to engage the final anode or ultor electrode of the tube when the gun mount is positioned within the tube neck.
  • the ultor electrode is in the form of a conductive coating on the inner surface of the tube envelope.
  • the electrodes 12-15 of each gun are, of course, arranged in coaxial alignment and each is axially apertured to admit the passage of an electron beam.
  • the convergence cylinder 16 is, likewise, suitably apertured along the axis of each gun to complete the beam path through the mount structure.
  • the construction of the particularly illustrated convergence subassembly is described and claimed in the copending application of Joseph P. Fiore, Serial No. 376,829, filed concurrently herewith and assigned to the same assignee.
  • the various electrodes and filaments of the three guns comprising the gun mount connect in well-known manner to lead-in conductors 19 through which the guns are supported by the usual glass press 18.
  • the press also has an exhaust tabulation 21.
  • the gun mount as thus far described and its various electrodes are of conventional construction and operation. More particular attention may now be directed to the cathode assembly 11 which features the subject invention.
  • the principal components of this assembly are a cathode cylinder 30 which bears an electron emitting coating 31 in the form out a cap at a closed end, a radiation-shield cylinder 32 and a support member 35.
  • the cathode and radiation-shield cylinders are mechanically interconnected to constitute a suhassembly and to that end there is a first plurality of support elements angularly disposed about the periphery of one of these cylinders at the end remote from the emitting material 31, projecting radially into limited-area contact with the opposed end portion of the other of those cylinders.
  • These support elements may he provided as projections extending from either cylinder radially in the direction of the other; as shown, however, the end of cathode cylinder 3% remote from the coating 31 of emitting material is deformed to provide these support elements. More particularly, this end of the cathode cylinder has a triangular shape and a larger cross-sectional dimension than the remainder of the cylinder and the apices 33a, 33b, 33c constitute elements which may make line contact with shield cylinder 32.
  • the shield has a mean diameter which is greater than that of the cathode cylinder 30 except for the termination 33 thereof and as to that, the parts are dimensioned to accomplish line contact along portions 33 and the adjacent surfaces of the shield cylinder. Welds are made along these line contacts, securing the two cylinders in nested cn centric relation.
  • This subas-sembly is secured to support 35 which is disposed coaxially of the subassembly approximately at the midpoint or central longitudinal portion of shield cylinder 32.
  • a second plurality of support elements is disposed about the subassernbly, projecting radially between and into limited area contact with the central longitudinal portion of shield cylinder 32 and support 35 mechanically to secure the subassenrbly to that support.
  • This second plurality of support elements is displaced with respect to the first described plurality of support elements to establish a series of thermally conductive path-s extending between cathode cylinder 30 and support 35, each such path having a length that is long compared to the physical separation of the cathode cylinder and its support.
  • support 35 has a central cylindrical section 3511 which has three depressed portions 35b, 35c and 35d with an angular separation of approx-imately 120.
  • the subassemibly 30, 32 is inserted into cylindrical section 35a and angularly oriented to accomplish a desired axial and angular displacement of support elements 3341-330 relative to support elements 35b- 35d.
  • Positioning the subassenibly so that support elements 3'5b-35d are located mid-way of shield cylinder 32 provides an acceptable axial displacement of the support elements and rotation of the subassembly about its own axis permits support elements 336F336 to be interposed mid-way between the members of the second series of support elements 35b35d.
  • the subassernbly is mechanically secured to its support by welds made at each of the depressed sections 351F350! establishing the desired limited-area contact of the subassernbly with its support.
  • mounting lugs 36, 37 projecting from support 35 in a direction which is generally transverse or across the axis of the cathode assembly and in a direction away from the cap 31 of emitting material.
  • These mounting lugs have such angular disposition as to facilitate securing them to pillars 10, it) of the gun mount assembly.
  • this arrangement of mounting lugs permits a desirable in-line arrangement of mounting lugs for the cathode assembly and electrodes of the various electron guns, that is to say, the mounting lugs which engage pillars 10 are in alignment or essentially co-planar.
  • This mechanical arrangement is desirable since it avoids the past practice of having several such lugs engage a given portion of pillar .10 in parallel arrangement at any particular longitudinal section of the pillar.
  • the described structure has more mechanical strength and facilitates production.
  • the ceramic Washer characteristic of prior art structures has been avoided and in its place the cathode components are secured by positive and firm mechanical connections such as welds.
  • the shield cylinder 32 is formed of bright stainless steel and is a heat reflector which tends to create an oven surrounding the cathode cylinder. This leads to higher efiicien-cy of the heating system and reduces the wattage requirement to attain a desired operating temperature.
  • thermally conductive paths that may be traced from the cathode cylinder through shield cylinder 32 and to the support 35 are separated from one another because of the use of limited-area contacts and each of these paths has a length that is very long compared with the physical separation of the cathode cylinder and its support.
  • the described structure permits practical control of the thermal paths by the contact areas between components 30, 32 and 35 and also by choice of the wall thickness of shield cylinder 32. This is a very useful feature in determining the operating temperature of the cathode and other important parameters such as the physical spacing between the emitting surface of the cathode and control electrode 11.
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
  • a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into a limited-area contact with the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a cathode cylinder bearing electron emitting material at one end and having an enlarged opposite end deformed into a triangular cross-section
  • a radiation-shield cylinder disposed in nested concentric relation to said cathode cylinder having a mean diameter approximately equal to that of said enlarged end of said cathode cylinder;
  • said cylinders being joined in approximately line contact at the apices of said triangular cross-section of said cathode cylinder to secure said cylinders in a mechanical subassembly;
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
  • a first plurality of support elements angularly disposed about the periphery of said cathode cylinder, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact with the opposed end portion of said shield cylinder to secure said cylinders in a mechanical subassembly;
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
  • a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact with the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
  • a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact With the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
  • a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact with the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
  • a second plurality of support elements disposed about said subassembly projecting radially between and into limited-area contact with said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced axially and angularly with respect to said first plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support;
  • a cathode assembly for the electron gun of an electron discharge device such as a cathode-ray tube, comprising:
  • a cathode cylinder bearing electron emitting material at one end and having an enlarged opposite end deformed into a triangular cross-section
  • a radiation-shield cylinder disposed in nested concentric relation to said cathode cylinder having a mean diameter approximately equal to that of said enlarged end of said cathode cylinder;
  • said cylinders being joined in approximately line contact at the apices of said triangular cross-section of said cathode cylinder to secure said cylinders in a mechanical subassembly;
  • a support for said subassembly disposed about the cen tral longitudinal portion of said shield cylinder having depressed peripheral portions constituting a plurality of support elements disposed about said subassembly and projecting radially into limited-area contact with said shield cylinder to mechanically secure said subassembly to said support, said plurality of support elements being displaced axially and angularly with respect to the apices of said triangular section to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.

Landscapes

  • Electrodes For Cathode-Ray Tubes (AREA)

Description

Aug. 9, 1966 J. P. FIORE ELECTRON-DISCHARGE DEVICE CATHODE ASSEMBLY WITH RADIATION SHIELD Flled June 22, 1964 @WEMMQ.
United States Patent 3,265,920 ELECTRON-DISCHARGE DEVICE CATHODE ASSEMBLY WITH RADIATION SHIELD Joseph P. Fiore, Wheeling, Ill., assignor to The Rauland Corporation, a corporation of Illinois Filed June 22, 1964, Ser. No. 376,799 8 Claims. (Cl. 313-440) The present invention is directed to the cathode assembly of the electron gun of an electron discharge device, such as a cathode-ray tube. While of general utility, the cathode assembly of this invention is most particularly applicable to the three-gun variety of color picture tube.
Color tubes employing three guns are designed with the objective of establishing and maintaining color balance particularly as that characteristic is influenced by the structural features of the electron guns. Optimum operation of the tube and the receiver in which it may be incorporated is dependent upon stability of the gun characteristics which by distinct preference are maintained uniform for each of the guns.
This desirable characteristic has not been readily attained in cathode structures employed heretofore. One structural arrangement, for example, features a cylindrical cathode concentrically disposed within a cylindrical first grid and maintained in position by means of a ceramic washer. The cathode is inserted into an aperture of the washer and any of a number of mechanical eX- pedients are resorted to in order to locate and aflix the washer within the grid cylinder. It has been found that dimensional changes experienced within the cathode assembly because of temperature changes between the deenergized and the operating states of the tube may occasion cracking or deformation of the ceramic washer which may result in positional changes of the elements constituting the electron gun. Of course, any such change adversely affects the balance of the gun characteristics. Even though there may be no fractures suffered in the structural elements due to temperature changes, if their expansions are non-uniform or if there is any non-uniform displacement of the gun parts, as between the three guns, the desired balance is upset.
Accordingly, it is a principal object of the invention to provide an improved cathode assembly for the electron gun of an electron discharge device such as a cathoderay tube.
It is a specific object of the invention to provide a cathode assembly which may be used in a three-gun color picture tube to attain uniform gun characteristics and color balance.
It is another specific object of the invention to provide an improved cathode assembly for a cathode-ray tube which is highly efficient and reduces heater requirements to attain a preselected operating temperature.
A cathode assembly for the electron gun of an electron discharge device, constructed in accordance with the invention, comprises a cathode cylinder which bears electron emitting material on one end. A radiation-shield cylinder is disposed in nested concentric relation to, and has a mean diameter greater than that of, the cathode cylinder. A first plurality of support elements is angularly disposed about the periphery of one of these cylinders, at the end portion which is remote from the emitting surface of the cathode. These support elements project radially into limited-area contact with the opposed end portion of the other of the cylinders to secure them in a mechanical subassembly. A support for that sub- 3,265,920 Patented August 9, 1966 order to mechanically secure the subassembly to the support. The second plurality of support elements is displaced with respect to the first plurality to establish a series of separated, thermally conductive paths between the cathode cylinder and the support individually having a length that is long compared to the physical separation of the cathode cylinder and its support. By arranging to have a long, thermally conductive path between the cathode cylinder and the support, the heater efiiciency is increased and this objective may be accomplished by displacing the first and second plurality of support elements through an angular and/or a longitudinal displacement. In the preferred construction, these elements have both an angular and longitudinal or axial displacement.
. The features of this invention which are believed to be novel are set forth with particularity in the appended claims. The invention, together with further objects and advantages thereof, may best be understood, however, by reference to the following description taken in conjunction with the accompanying drawing, in the several figures of which like reference numerals identify like elements, and in which:
FIGURE 1 is a perspective view of an electron gun mount assembly for a color television picture tube embodying the invention;
FIGURE 2 is an exploded view of the cathode arrangement of the gun;
FIGURE 3 is a cross-sectional view taken on section line 3-3 of FIGURE 1; and
FIGURE 4 is a view, partially in cross-section, of the gun arrangement taken on section line 44 of FIG- URE 3.
The gun mount assembly of FIGURE 1 is for use in a tri-color television picture tube and is particularly applicable to the shadow-mask variety of color tube presently in use. The assembly incorporates three electron guns positioned in a triangular or delta array but only one such gun is visible in the view of FIGURE 1. The guns are secured in the desired array by means of three longitudinally extending insulating support members or pillars 10, only two of which are visible in FIGURE 1. The electron guns are structurally alike and each includes a thermionic cathode assembly 11 to be described more particularly hereinafter, a first control grid 12, a screen grid or first anode 13 and a pair of focusing electrodes 14, 15. There is a convergence subassembly, the details of which are of no particular concern to the subject invention. Suffice it to say the subassembly comprises a cylindrical member 16. The cylinder is supported in coaxial alignment with the remainder of the gun mount by mechanical connections with each of electrodes 15 which are individually welded to the closure plate of the cylinder. Contact springs 17 extend forwardly of convergence cylinder 16 to engage the final anode or ultor electrode of the tube when the gun mount is positioned within the tube neck. Usually, the ultor electrode is in the form of a conductive coating on the inner surface of the tube envelope. The electrodes 12-15 of each gun are, of course, arranged in coaxial alignment and each is axially apertured to admit the passage of an electron beam. The convergence cylinder 16 is, likewise, suitably apertured along the axis of each gun to complete the beam path through the mount structure. The construction of the particularly illustrated convergence subassembly is described and claimed in the copending application of Joseph P. Fiore, Serial No. 376,829, filed concurrently herewith and assigned to the same assignee.
There is a unique heater assembly for the array of electron guns which is the subject of an application Serial No. 376,828, filed concurrently herewith in the names of Charles A. Lowery and Mark J. Videka, and assigned to the same assignee as the present application. The structural details of the heater are fully disclosed in that application; suffice it here to say that it features a segmented conductor which is circular in configuration and comprised of segments 20a, 20b and 200. Each segment accommodates a tab 200! which is embedded in one of pillars 10 to secure the segment in position. One end of each such segment is electrically connected to a heater or filament conductor of one of the electron guns and the opposite end of that particular segment connects with a heater conductor of the next succeeding gun in the array. As explained in the copendin-g Charles A. Loweryand Mark I. Videka application, this connects the heaters in series through the segmented structure 20.
The various electrodes and filaments of the three guns comprising the gun mount connect in well-known manner to lead-in conductors 19 through which the guns are supported by the usual glass press 18. The press also has an exhaust tabulation 21. Except for the heater circuit and the convergence subassembly, the gun mount as thus far described and its various electrodes are of conventional construction and operation. More particular attention may now be directed to the cathode assembly 11 which features the subject invention.
The principal components of this assembly are a cathode cylinder 30 which bears an electron emitting coating 31 in the form out a cap at a closed end, a radiation-shield cylinder 32 and a support member 35. The cathode and radiation-shield cylinders are mechanically interconnected to constitute a suhassembly and to that end there is a first plurality of support elements angularly disposed about the periphery of one of these cylinders at the end remote from the emitting material 31, projecting radially into limited-area contact with the opposed end portion of the other of those cylinders. These support elements may he provided as projections extending from either cylinder radially in the direction of the other; as shown, however, the end of cathode cylinder 3% remote from the coating 31 of emitting material is deformed to provide these support elements. More particularly, this end of the cathode cylinder has a triangular shape and a larger cross-sectional dimension than the remainder of the cylinder and the apices 33a, 33b, 33c constitute elements which may make line contact with shield cylinder 32. The shield has a mean diameter which is greater than that of the cathode cylinder 30 except for the termination 33 thereof and as to that, the parts are dimensioned to accomplish line contact along portions 33 and the adjacent surfaces of the shield cylinder. Welds are made along these line contacts, securing the two cylinders in nested cn centric relation.
It will be observed that the free end of the triangle portion 33 of the cathode cylinder is open to facilitate inserting the heater filament within the cylinder. Although the filament itself does not appear in FIGURE 2, its lead-in conductors. 34 are shown.
This subas-sembly is secured to support 35 which is disposed coaxially of the subassembly approximately at the midpoint or central longitudinal portion of shield cylinder 32. A second plurality of support elements is disposed about the subassernbly, projecting radially between and into limited area contact with the central longitudinal portion of shield cylinder 32 and support 35 mechanically to secure the subassenrbly to that support. This second plurality of support elements is displaced with respect to the first described plurality of support elements to establish a series of thermally conductive path-s extending between cathode cylinder 30 and support 35, each such path having a length that is long compared to the physical separation of the cathode cylinder and its support. More particularly, support 35 has a central cylindrical section 3511 which has three depressed portions 35b, 35c and 35d with an angular separation of approx-imately 120. The subassemibly 30, 32 is inserted into cylindrical section 35a and angularly oriented to accomplish a desired axial and angular displacement of support elements 3341-330 relative to support elements 35b- 35d. Positioning the subassenibly so that support elements 3'5b-35d are located mid-way of shield cylinder 32 provides an acceptable axial displacement of the support elements and rotation of the subassembly about its own axis permits support elements 336F336 to be interposed mid-way between the members of the second series of support elements 35b35d. The subassernbly is mechanically secured to its support by welds made at each of the depressed sections 351F350! establishing the desired limited-area contact of the subassernbly with its support.
There is a pair of straps or mounting lugs 36, 37 projecting from support 35 in a direction which is generally transverse or across the axis of the cathode assembly and in a direction away from the cap 31 of emitting material. These mounting lugs have such angular disposition as to facilitate securing them to pillars 10, it) of the gun mount assembly. As shown in FIGURE 1, this arrangement of mounting lugs permits a desirable in-line arrangement of mounting lugs for the cathode assembly and electrodes of the various electron guns, that is to say, the mounting lugs which engage pillars 10 are in alignment or essentially co-planar. This mechanical arrangement is desirable since it avoids the past practice of having several such lugs engage a given portion of pillar .10 in parallel arrangement at any particular longitudinal section of the pillar. The described structure has more mechanical strength and facilitates production.
In addition to this structural advantage of integrating the gun Within its mount, the described arrangement is particularly attractive in arriving at uniform characteristics of the gun especially as those characteristics are controlled by structural elements of the cathode subassem=bly. The ceramic Washer characteristic of prior art structures has been avoided and in its place the cathode components are secured by positive and firm mechanical connections such as welds. The shield cylinder 32 is formed of bright stainless steel and is a heat reflector which tends to create an oven surrounding the cathode cylinder. This leads to higher efiicien-cy of the heating system and reduces the wattage requirement to attain a desired operating temperature.
By having a restricted number of limited-area contacts between cathode cylinder 30 and shield cylinder 32 the thermal efficiency of the system is preserved. Actually, there are only three such contacts which, in efiect, provide three thermally conductive paths between the cylinders and each of these is a high impedance path. The axial and angular displacement of the three limited-area contacts between support 35 and shield 32, with respect to those between cathode 30 and shield 32, further preserves the efiiciency of the heater arrangement. The thermally conductive paths that may be traced from the cathode cylinder through shield cylinder 32 and to the support 35 are separated from one another because of the use of limited-area contacts and each of these paths has a length that is very long compared with the physical separation of the cathode cylinder and its support.
The described structure permits practical control of the thermal paths by the contact areas between components 30, 32 and 35 and also by choice of the wall thickness of shield cylinder 32. This is a very useful feature in determining the operating temperature of the cathode and other important parameters such as the physical spacing between the emitting surface of the cathode and control electrode 11.
The points of connection between the cylinder members 30, 32 and 35a have been described as limited-area contacts to connote a thermally conductive path of highimpedance to distinguish from previous practice in which the concentric cylinders are joined together throughout a major portion if not all of their peripheries in the plane of contact. The latter gives rise to a low impedance thermal path and deteriorates the efliciency of the cathode system.
While a particular embodiment of the present invention has been shown and described, it is apparent that changes and modifications may be made therein without departing from the invent-ion in its broader aspects. The aim of the appended claims, therefore, is to cover all such changes and modifications as fall within the true spirit and scope of the invention.
1 claim:
'1. A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
, :a cathode cylinder bearing electron emitting material at one end;
a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into a limited-area contact with the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
a support for said subassembly disposed about said shield cylinder;
and a second plurality of support elements disposed about said sub-assembly projecting radially between and into limited-area contact with said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced with respect to said first plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.
2. A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
a cathode cylinder bearing electron emitting material at one end;
a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
the end of one of said cylinders remote from said emitting material being defiormed to provide a first plurality of angularly displaced support elements, projecting radially into limited-area contact with the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
a support ior said subassembly disposed about said shield cylinder;
and a second plurality of support elements disposed about said subassembly projecting radially between and into limited area contact with said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced with respect to said tfi-rst plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.
3. A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
a cathode cylinder bearing electron emitting material at one end and having an enlarged opposite end deformed into a triangular cross-section;
a radiation-shield cylinder disposed in nested concentric relation to said cathode cylinder having a mean diameter approximately equal to that of said enlarged end of said cathode cylinder;
said cylinders being joined in approximately line contact at the apices of said triangular cross-section of said cathode cylinder to secure said cylinders in a mechanical subassembly;
a support for said subassembly disposed about said shield cylinder;
and a second plurality of support elements disposed about said subassembly projecting radially between and into limited-area contact with said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced with respect to said first plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.
4. A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
a cathode cylinder bearing electron emitting material at one end;
a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
a first plurality of support elements angularly disposed about the periphery of said cathode cylinder, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact with the opposed end portion of said shield cylinder to secure said cylinders in a mechanical subassembly;
a support for said subassembly disposed about said shield cylinder;
and a second plurality of support elements disposed about said subassembly projecting radially between and into limited-area contact with said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced with respect to said tfirst plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.
5. A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
a cathode cylinder bearing electron emitting material at one end;
a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact with the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
a support for said subassembly disposed about the central longitudinal portion of said shield cylinder;
and a second plurality of support elements disposed about said subassembly projecting radially between and into limited-area contact With'said central longitudinal portion of said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced axially and angularly with respect to said first plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.
6; A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
a cathode cylinder bearing electron emitting material at one end;
a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact With the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
a support for said subassembly disposed about said shield cylinder;
and a second plurality of support elements disposed about said subassembly projecting radially between and into limited-area contact with said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced axially and angularly with respect to said first plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.
7. A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
a cathode cylinder bearing electron emitting material at one end;
a radiation-shield cylinder disposed in nested concentric relation to, and having a mean diameter greater than that of, said cathode cylinder;
a first plurality of support elements angularly disposed about the periphery of one of said cylinders, at the end portion thereof remote from said emitting material, projecting radially into limited-area contact with the opposed end portion of the other of said cylinders to secure said cylinders in a mechanical subassembly;
a support for said subassembly disposed about said shield cylinder;
a second plurality of support elements disposed about said subassembly projecting radially between and into limited-area contact with said shield cylinder and said support to mechanically secure said subassembly to said support, said second plurality of support elements being displaced axially and angularly with respect to said first plurality to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support;
and a pair of mounting lugs projecting from said support in a direction generally transverse to the axis of said cathode assembly and away from said emitting material.
8. A cathode assembly for the electron gun of an electron discharge device, such as a cathode-ray tube, comprising:
a cathode cylinder bearing electron emitting material at one end and having an enlarged opposite end deformed into a triangular cross-section;
a radiation-shield cylinder disposed in nested concentric relation to said cathode cylinder having a mean diameter approximately equal to that of said enlarged end of said cathode cylinder;
said cylinders being joined in approximately line contact at the apices of said triangular cross-section of said cathode cylinder to secure said cylinders in a mechanical subassembly;
a support for said subassembly disposed about the cen tral longitudinal portion of said shield cylinder having depressed peripheral portions constituting a plurality of support elements disposed about said subassembly and projecting radially into limited-area contact with said shield cylinder to mechanically secure said subassembly to said support, said plurality of support elements being displaced axially and angularly with respect to the apices of said triangular section to establish a series of separated, thermally conductive paths between said cathode cylinder and said support individually having a length that is long compared to the physical separation of said cathode cylinder and said support.
References Cited by the Examiner UNITED STATES PATENTS 1,828,524 10/1931 Delaney 313-270 1,942,080 1/1934 Young 313--2'70 2,413,689 1/1947 Clark et al. 313239 3,200,283 8/1965 Manfredi et a1. 313270 JOHN W. HUCKERT, Primary Examiner.
A. J. JAMES, Assistant Examiner.

Claims (1)

  1. 3. A CATHODE ASSEMBLY FOR THE ELECTRON GUN OF AN ELECTRON DISCHARGE DEVICE, SUCH AS A CATHODE-RAY TUBE, COMPRISING: A CATHODE CYLINDER BEARING ELECTRON EMITTING MATERIAL AT ONE END AND HAVING AN ENLARGED OPPOSITE END DEFORMED INTO A TRIANGULAR CROSS-SECTION; A RADIATION-SHIELD CYLINDER DISPOSED IN NESTED CONCENTRIC RELATION TO SAID CATHODE CYLINDER HAVING A MEAN DIAMETER APPROXIMATELY EQUAL TO THAT OF SAID ENLARGED END OF SAID CATHODE CYLINDER; SAID CYLINDERS BEING JOINED IN APPROXIMATELY LINE CONTACT AT THE APICES OF SAID TRIANGULAR CROSS-SECTION OF SAID CATHODE CYLINDER TO SECURE SAID CYLINDERS IN A MECHANICAL SUBASSEMBLY; A SUPPORT FOR SAID SUBASSEMBLY DISPOSED ABOUT SAID SHIELD CYLINDER; AND A SECOND PLURALITY OF SUPPORT ELEMENTS DISPOSED ABOUT SAID SUBASSEMBLY PROJECTING RADIALLY BETWEEN AND INTO LIMITED-AREA CONTACT WITH SAID SHIELD CYLINDER AND SAID SUPPORT TO MECHANICALLY SECURE SAID SUBASSEMBLY TO SAID SUPPORT, SAID SECOND PLURALITY OF SUPPORT ELEMENTS BEING DISPLACED WITH RESPECT TO SAID FIRST PLURALITY TO ESTABLISH A SERIES OF SEPARATED, THERMALLY CONDUCTIVE PATHS BETWEEN SAID CATHODE CYLINDER AND SAID SUPPORT INDIVIDUALLY HAVING A LENGTH THAT IS LONG COMPARED TO THE PHYSICAL SEPARATION OF SAID CATHODE CYLINDER AND SAID SUPPORT.
US376799A 1964-06-22 1964-06-22 Electron-discharge device cathode assembly with radiation shield Expired - Lifetime US3265920A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US376799A US3265920A (en) 1964-06-22 1964-06-22 Electron-discharge device cathode assembly with radiation shield

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US376799A US3265920A (en) 1964-06-22 1964-06-22 Electron-discharge device cathode assembly with radiation shield

Publications (1)

Publication Number Publication Date
US3265920A true US3265920A (en) 1966-08-09

Family

ID=23486551

Family Applications (1)

Application Number Title Priority Date Filing Date
US376799A Expired - Lifetime US3265920A (en) 1964-06-22 1964-06-22 Electron-discharge device cathode assembly with radiation shield

Country Status (1)

Country Link
US (1) US3265920A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3543071A (en) * 1968-10-14 1970-11-24 Kentucky Electronics Inc Electrode with wing-shaped brackes for cathode ray tubes
US3575626A (en) * 1968-09-05 1971-04-20 Kentrcky Electronics Inc Electrode mounting brackets producing shorter electron gun mounts in cathode-ray tubes
US3728574A (en) * 1971-10-19 1973-04-17 Gte Sylvania Inc Cathode cap
US3873874A (en) * 1974-02-20 1975-03-25 Gte Sylvania Inc Shield attached by sealing to panel sidewall of cathode ray tube
DE2541886A1 (en) * 1974-09-19 1976-04-01 Tokyo Shibaura Electric Co Three-gun picture tube assembly - inner cathode cylinder and outer coaxial holder of similar expansion coefficients ensure whiteness control
US4359664A (en) * 1980-07-02 1982-11-16 North American Philips Consumer Electronics Corp. Method of mounting a cathode and eyelet for use therewith
US4514660A (en) * 1983-11-29 1985-04-30 Rca Corporation Cathode-ray tube having an electron gun assembly with a bimetal cathode eyelet structure
US4517494A (en) * 1981-11-09 1985-05-14 Sharp Kabushiki Kaisha Screening structure for a cathode ray tube display
US4554480A (en) * 1983-11-29 1985-11-19 Rca Corporation Cathode-ray tube having an electron gun assembly with emissivity modifying means

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1828524A (en) * 1928-03-07 1931-10-20 Arcturus Radio Tube Co Heater type vacuum tube
US1942080A (en) * 1931-08-27 1934-01-02 Gen Electric Heater for indirectly heated cathodes
US2413689A (en) * 1942-02-12 1947-01-07 Bell Telephone Labor Inc Electron discharge device
US3200283A (en) * 1961-05-26 1965-08-10 Gen Electric Ruggedized cathode mount

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1828524A (en) * 1928-03-07 1931-10-20 Arcturus Radio Tube Co Heater type vacuum tube
US1942080A (en) * 1931-08-27 1934-01-02 Gen Electric Heater for indirectly heated cathodes
US2413689A (en) * 1942-02-12 1947-01-07 Bell Telephone Labor Inc Electron discharge device
US3200283A (en) * 1961-05-26 1965-08-10 Gen Electric Ruggedized cathode mount

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3575626A (en) * 1968-09-05 1971-04-20 Kentrcky Electronics Inc Electrode mounting brackets producing shorter electron gun mounts in cathode-ray tubes
US3543071A (en) * 1968-10-14 1970-11-24 Kentucky Electronics Inc Electrode with wing-shaped brackes for cathode ray tubes
US3728574A (en) * 1971-10-19 1973-04-17 Gte Sylvania Inc Cathode cap
US3873874A (en) * 1974-02-20 1975-03-25 Gte Sylvania Inc Shield attached by sealing to panel sidewall of cathode ray tube
DE2541886A1 (en) * 1974-09-19 1976-04-01 Tokyo Shibaura Electric Co Three-gun picture tube assembly - inner cathode cylinder and outer coaxial holder of similar expansion coefficients ensure whiteness control
US4359664A (en) * 1980-07-02 1982-11-16 North American Philips Consumer Electronics Corp. Method of mounting a cathode and eyelet for use therewith
US4517494A (en) * 1981-11-09 1985-05-14 Sharp Kabushiki Kaisha Screening structure for a cathode ray tube display
US4514660A (en) * 1983-11-29 1985-04-30 Rca Corporation Cathode-ray tube having an electron gun assembly with a bimetal cathode eyelet structure
US4554480A (en) * 1983-11-29 1985-11-19 Rca Corporation Cathode-ray tube having an electron gun assembly with emissivity modifying means

Similar Documents

Publication Publication Date Title
US3333138A (en) Support assembly for a low-wattage cathode
US3265920A (en) Electron-discharge device cathode assembly with radiation shield
US4297612A (en) Electron gun structure
US4403169A (en) Cathode suspension means for cathode ray tube electron gun
US2914694A (en) Cathode assembly
US4069436A (en) Flat thermionic cathode
US2727177A (en) Electrostatic lens system
US2942128A (en) Electrodes for electron gun unit
US2825837A (en) Electrostatic focusing system
US3134923A (en) Plural parallel electron-guns
US2712087A (en) Plural beam electron discharge devices
US2758234A (en) Electrode system for cathode ray tubes
US3322990A (en) Convergence subassembly with indexing provisions in cylindrical support for electron guns
US3973161A (en) Plural gun cathode-ray tube with oval control electrodes
US3238409A (en) Electron-guns
JPH01225044A (en) Cathode ray tube
US2951172A (en) High power, high frequency electron tube
US3873876A (en) Color cathode-ray tube with temperature equilization for plurality of electron gun filaments
US3027479A (en) Electron guns
US3387166A (en) Heater support for plural gun cathode-ray tube
US2802133A (en) Electron discharge device
US3465195A (en) Shock and vibration-resistant arrangement for cathodes of small heating power
US3575626A (en) Electrode mounting brackets producing shorter electron gun mounts in cathode-ray tubes
US4523124A (en) Cathode-ray tube having multiplate cathode unit
US3277328A (en) Support means for cathode ray tube gun structure