US2807737A - Cathode ray television receiver tube and method of using the same - Google Patents

Cathode ray television receiver tube and method of using the same Download PDF

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US2807737A
US2807737A US481661A US48166155A US2807737A US 2807737 A US2807737 A US 2807737A US 481661 A US481661 A US 481661A US 48166155 A US48166155 A US 48166155A US 2807737 A US2807737 A US 2807737A
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envelope
cathode ray
objective
light
color
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Wright Annie
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N9/00Details of colour television systems
    • H04N9/12Picture reproducers
    • H04N9/31Projection devices for colour picture display, e.g. using electronic spatial light modulators [ESLM]

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  • An object of my invention is to provide an apparatus and method, or color-kinescope, for producing graphic figures and pictures in which many disadvantages of present day methodsare avoided by the receiving apparatus or cathode ray tubes herein provided.
  • a further object is to obtain brighter images,without resorting to higher beam power to attain increased brilliancy.
  • Another object is to avoid shadow masks which intercept the electron beam and prevent the use of a large percentage of the power of the beam and which also detract from the image sharpness.
  • Still another object is to avoid the dliliculties encountered in the buckling of the very thin shadow masks hitherto found necessary.
  • Still another object is to avoid the ditliculty of applying a succession of microscopic phosphor dots to the target area in several different colors. Still further objects will appear from the detailed description of my invention hereinafter.
  • My invention may be carried out with any desired number of electron guns, for instance by utilizing three electron guns and the other structural elements as set forth in the patent to Epstein No. 2,659,026, granted November l0, 1953, or, instead, one electron gun as in the patent to Jenny No. 2,611,099, granted September 16, 1952, but by omitting the shields and perforated screens as Well as the dotted phosphor construction in said patents, while, however, utilizing the angularity of the electron beams.
  • Fig. l is a horizontal section of a color-kinescope tube made in accordance with my invention.
  • Fig. 2 is a diagrammatic horizontal detail section enlarged thereof.
  • I may provide an envelope 1, provided with an appropriate amount of vacuum, made of glass or any other suitable material, having a front thickened wall 2 through which the television image may be observed from an inner ground glass surface 3.
  • the ftube 1 is providedwith a neck 4 which contains three electron guns 5, 6 and 7, arranged for example 120 away from one another as related to the axis of a neck portion 4 of the tube 1.
  • a set of magnetic yokes or coils 8 and 9 is provided around the neck portion 4 of the tube.
  • the yoke or coil 8 is located near the common anode 10 of the electron guns 5, ⁇ 6, and 7, so as to converge parallel beams 11, 12 and 13 therefrom which relate to the red, blue and green respectively, onto any given point 14 of a target surface 15 of any suitable phosphor, but preferably such as to provide White light.
  • the luminescent coating 15 is carried on the rear face of a thin glass plate 16 having formed on the front face thereof lenticulations 17, which are preferably cylindrical, but may be in the form of spherical pivots, which have a focal point at the rear of the plate 16, and have a radius, approximately, of 1/3 of the plate thickness.
  • the width of the lenticles 17 may be of any desired size, as for example from 4 to 30 per mm.
  • the comV posite beam of the tube 1 is preferably directed substantially horizontally across the target surface 15, or at the conventional slight angle to the horizontal, whereas the lenticles 17, if cylindrical, are located at any desired angle to the track of the scanning beam but prefer ably in a vertical direction, although the cylindrical lenticles may be located at any other desired angle t-o the track of the scanning beam.
  • the synchronized light image thus emitted by the phosphor 15 is transmitted to and through the lenticulations 17, each of the said images being divided into two, three or more portions corresponding to the two, three or more transmitted color components of the color filter of the camera tube.
  • the respective light components thus formed thereupon pass at their respective angles, caused by the curvature of each lenticle, to an objective system 18, of any desired type, thence through a multizone color lilter 19, as set forth for instance in my Patent No.2,621,247, granted December 9, 1952, or in my copending application Ser. No. 440,671, filed July 1, 1954.
  • the objective system 18, such as referred to therein, then focuses the images in their multicolor components onto the ground glass viewing surface 3.
  • a conductive coating 20 is provided on the inside of the tube neck 4 having the same potential as the anode 10 which acts as an accelerating electrode.
  • the yoke 8 acts as a converging coil upon the electrons from the three electron guns 5, 6 and 7, which form three converging beams 21, 22 and 23, relating respectively to the colors red, blue and green, that converge at the luminescent surface 15, but have three different angularities according to the three color impulses, red, blue and green respectively.
  • the yoke 9 is comprised of a pair fof deflecting coils for producing the usual horizontal and vertical scanning action of the beams on the target area 15.
  • the angularities of the three respective beams aid in the sharp separation between them and the transmission to the conformations of either smooth or rough phosphor coating 15 in the most effective directions, as they have separate relative inclinations, in the general directions of the three different inclinations: of the courses of light within each of the lenticles transmitted to the three respective parallel color zones of the color filter 19, through the objective 18.
  • one of the repetitive time-division multiplexed beams would be angularly inclined from the axis of the tube neck 4 substantially vertically along the axis of each particular lenticle 17, when the lenticles 1'7 are at right angles to the beam track, which is customarily slightly inclined to the horizontal, and the beams 22 and 23 would be inclined angularly to the right and left, respectively, of the axis of each said lenticle, preceding a similar angular separation of the courses of the respective bundles of light rays transmitted from the rear focal points 24, 25 and 26 of each lenticle, by reason of the curvature thereof, thence through the objective 18 and through the central red, left blue, and right green zones of the color filter 19, inasmuch as, as shown in Fig. 2, said three bundles of light rays, which are produced by the plate 17, cross one another within each of said lenticles.
  • electron gundevifce therein means to produce scanning beam impulses therefrom of varying angularity according to a succession of different-'color signals, a luminescent targetsurface therefor, arranged-to lreceive the entire impulses from said device, a'succes'sion of lenticles located in said envelope to receive the light from said surface, an' ⁇ objective land multizone color lter in said envelope Vto'rec'eive the light therefrom, and a viewing screen'in the focal point of said objective.
  • a cathode ray tube comprising anV envelope, an electron gun device therein, means to produce scanning beam impulses therefrom of varyingV angularity according to a succession of different-colorV signals, Va luminescent target surface therefor, arranged to receive the' en- .tire impulsesfrom said device, apsuccession of lenticles located'in said envelope to receiyethe light from said surface, an objective kand multizone color lter in said envelope to receive the light therefrom, and a viewing screen at said envelope in the focal point of said objective.
  • a cathode ray tube comprising an envelope, a lplu ⁇ rality of electron guns therein', means to produce a plu- Y Vrality of converging scanning beams therefrom of varying angularity according to a succession' of Vdifferentcolor signals, a luminescent target surface therefor, arranged to receive theentire beam from said gun, a succession of lenticles located in said envelope to receive the light from said surface, an objective and multizone color lter in said envelope Vto receive the light therefrom, and
  • a cathode raytube comprising an envelope, a pluralityof electron guns therein, means to produce a plurality of converging scanning beams therefrom of varying said surface each 'of which is located so as to receive vall,
  • Y 4 angularity Y according toa succession of different-color signals, a luminescent target surface therefor, arranged to receive the entire beam from said gun, a succession of lenticles located in said envelope to receive the light from said surface, an objective and multizone color filter in said envelope to receive the light' therefrom, and a viewing screen at said envelope in the focal point of said objective.
  • a cathode ray tube comprising an envelopeya plurality of electron guns Ytherein laterally displaced respectively means to produce a plurality of converging scanning beams therefrom of varying angular-ity according to a succession of different-color signals, a luminescent target surface therefor, a succession of cylindrical enticles located in said envelope to receive the light from said surface each of which is located so as to receive all said beams Ain different positions, respectively, behind the.
  • lenticle, anV objective and multizone color filter in said envelope to receive the light therefrom, and a viewing screen in the focal point of said objective.
  • a cathode ray tube comprising an envelope', a plu rality of electron guns therein laterally displaced respectively 120, means toproduce a plurality of converging scanning beams therefrom of varying angularity according to a succession of different-color signals, a luminescent target surfacertherefor, a succession of cylindrical lenticles located in said envelope to receive the light from said beams in different positions, respectively, behind the lcnticle, an objective and multizone color lter in said envelopeV to receive the light therefrom, andV a viewing Y i screen at'said envelope in the focal point of said'objective.

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  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Cathode-Ray Tubes And Fluorescent Screens For Display (AREA)

Description

Sem 4, w57 A. WRIGHT 29H37 CATHODE RAY TELEVISION RECEIVER TUBE AND METHOD OF' USING THE SAME Filed Jan. 13, 1955 INVENTOR aired States Patent Office l'2,807,737 Patented Sept. 24, 1957 CATH-IODE RAY TELEVISION RECEIVER TUBE AND METHD F USING TIE SAME Arthur Wright, Forest Hills, `N. Y.; Annie Wright, administratrix of said Arthur Wright, deceased Application January 13, 1955, Serial No. 481,661 6 Claims. (Cl. 313-711) My invention relates particularly to a television apparatus and receiver tube of an improved type and method, whereby many disadvantages previously encountered may be avoided in the present day color television.
An object of my invention is to provide an apparatus and method, or color-kinescope, for producing graphic figures and pictures in which many disadvantages of present day methodsare avoided by the receiving apparatus or cathode ray tubes herein provided. A further object is to obtain brighter images,without resorting to higher beam power to attain increased brilliancy. Another object is to avoid shadow masks which intercept the electron beam and prevent the use of a large percentage of the power of the beam and which also detract from the image sharpness. Still another object is to avoid the dliliculties encountered in the buckling of the very thin shadow masks hitherto found necessary. Still another object is to avoid the ditliculty of applying a succession of microscopic phosphor dots to the target area in several different colors. Still further objects will appear from the detailed description of my invention hereinafter.
My invention may be carried out with any desired number of electron guns, for instance by utilizing three electron guns and the other structural elements as set forth in the patent to Epstein No. 2,659,026, granted November l0, 1953, or, instead, one electron gun as in the patent to Jenny No. 2,611,099, granted September 16, 1952, but by omitting the shields and perforated screens as Well as the dotted phosphor construction in said patents, while, however, utilizing the angularity of the electron beams.
While my invention is capable of being carried out in many different ways, l have described and shown only one example by way of illustration thereof, in the accompanying drawings, in which* Fig. l is a horizontal section of a color-kinescope tube made in accordance with my invention; and
Fig. 2 is a diagrammatic horizontal detail section enlarged thereof.
By way of example, as shown in the drawings, I may provide an envelope 1, provided with an appropriate amount of vacuum, made of glass or any other suitable material, having a front thickened wall 2 through which the television image may be observed from an inner ground glass surface 3. The ftube 1 is providedwith a neck 4 which contains three electron guns 5, 6 and 7, arranged for example 120 away from one another as related to the axis of a neck portion 4 of the tube 1. A set of magnetic yokes or coils 8 and 9 is provided around the neck portion 4 of the tube. The yoke or coil 8 is located near the common anode 10 of the electron guns 5, `6, and 7, so as to converge parallel beams 11, 12 and 13 therefrom which relate to the red, blue and green respectively, onto any given point 14 of a target surface 15 of any suitable phosphor, but preferably such as to provide White light. The luminescent coating 15 is carried on the rear face of a thin glass plate 16 having formed on the front face thereof lenticulations 17, which are preferably cylindrical, but may be in the form of spherical pivots, which have a focal point at the rear of the plate 16, and have a radius, approximately, of 1/3 of the plate thickness. The width of the lenticles 17 may be of any desired size, as for example from 4 to 30 per mm. larger or smaller, but preferably about 4, and which are located and have their dimensions such as to accord and register with the sequence of the respective three different-color impulses received by the electron beam in the tube 1. These, of course, will be synchronized in time, distance and direction with the colors registered by the camera tube scanning beams. However, the comV posite beam of the tube 1, as usual, is preferably directed substantially horizontally across the target surface 15, or at the conventional slight angle to the horizontal, whereas the lenticles 17, if cylindrical, are located at any desired angle to the track of the scanning beam but prefer ably in a vertical direction, although the cylindrical lenticles may be located at any other desired angle t-o the track of the scanning beam. The synchronized light image thus emitted by the phosphor 15 is transmitted to and through the lenticulations 17, each of the said images being divided into two, three or more portions corresponding to the two, three or more transmitted color components of the color filter of the camera tube. The respective light components thus formed thereupon pass at their respective angles, caused by the curvature of each lenticle, to an objective system 18, of any desired type, thence through a multizone color lilter 19, as set forth for instance in my Patent No.2,621,247, granted December 9, 1952, or in my copending application Ser. No. 440,671, filed July 1, 1954. The objective system 18, such as referred to therein, then focuses the images in their multicolor components onto the ground glass viewing surface 3. A conductive coating 20 is provided on the inside of the tube neck 4 having the same potential as the anode 10 which acts as an accelerating electrode. The yoke 8 acts as a converging coil upon the electrons from the three electron guns 5, 6 and 7, which form three converging beams 21, 22 and 23, relating respectively to the colors red, blue and green, that converge at the luminescent surface 15, but have three different angularities according to the three color impulses, red, blue and green respectively. The yoke 9 is comprised of a pair fof deflecting coils for producing the usual horizontal and vertical scanning action of the beams on the target area 15. The angularities of the three respective beams aid in the sharp separation between them and the transmission to the conformations of either smooth or rough phosphor coating 15 in the most effective directions, as they have separate relative inclinations, in the general directions of the three different inclinations: of the courses of light within each of the lenticles transmitted to the three respective parallel color zones of the color filter 19, through the objective 18. In other words, preferably, one of the repetitive time-division multiplexed beams, for example beam 21, would be angularly inclined from the axis of the tube neck 4 substantially vertically along the axis of each particular lenticle 17, when the lenticles 1'7 are at right angles to the beam track, which is customarily slightly inclined to the horizontal, and the beams 22 and 23 would be inclined angularly to the right and left, respectively, of the axis of each said lenticle, preceding a similar angular separation of the courses of the respective bundles of light rays transmitted from the rear focal points 24, 25 and 26 of each lenticle, by reason of the curvature thereof, thence through the objective 18 and through the central red, left blue, and right green zones of the color filter 19, inasmuch as, as shown in Fig. 2, said three bundles of light rays, which are produced by the plate 17, cross one another within each of said lenticles.
It will be understood, Yof course, that any alternative forms of beam courses and scanning Systems may be utilized herein as referred to, forinstance, in the patent to Epstein aforesaidl." j v f While I have described my invention above in detail I wish it to' be understood that many changes Vmay be made therein without departing Vfrom' Vthe spirit of the same.A Y Y I claim: l o Y i 1;'A Acathode ray tube comprising an envelope, an
, electron gundevifce therein, means to produce scanning beam impulses therefrom of varying angularity according to a succession of different-'color signals, a luminescent targetsurface therefor, arranged-to lreceive the entire impulses from said device, a'succes'sion of lenticles located in said envelope to receive the light from said surface, an'` objective land multizone color lter in said envelope Vto'rec'eive the light therefrom, and a viewing screen'in the focal point of said objective.
2. A cathode ray tube comprising anV envelope, an electron gun device therein, means to produce scanning beam impulses therefrom of varyingV angularity according to a succession of different-colorV signals, Va luminescent target surface therefor, arranged to receive the' en- .tire impulsesfrom said device, apsuccession of lenticles located'in said envelope to receiyethe light from said surface, an objective kand multizone color lter in said envelope to receive the light therefrom, and a viewing screen at said envelope in the focal point of said objective.
3. A cathode ray tube comprising an envelope, a lplu` rality of electron guns therein', means to produce a plu- Y Vrality of converging scanning beams therefrom of varying angularity according to a succession' of Vdifferentcolor signals, a luminescent target surface therefor, arranged to receive theentire beam from said gun, a succession of lenticles located in said envelope to receive the light from said surface, an objective and multizone color lter in said envelope Vto receive the light therefrom, and
Y a viewing screen in the focal point of said objective.
4. A cathode raytube comprising an envelope, a pluralityof electron guns therein, means to produce a plurality of converging scanning beams therefrom of varying said surface each 'of which is located so as to receive vall,
Y 4 angularity Yaccording toa succession of different-color signals, a luminescent target surface therefor, arranged to receive the entire beam from said gun, a succession of lenticles located in said envelope to receive the light from said surface, an objective and multizone color filter in said envelope to receive the light' therefrom, and a viewing screen at said envelope in the focal point of said objective. y Y Y 5. A cathode ray tube comprising an envelopeya plurality of electron guns Ytherein laterally displaced respectively means to produce a plurality of converging scanning beams therefrom of varying angular-ity according to a succession of different-color signals, a luminescent target surface therefor, a succession of cylindrical enticles located in said envelope to receive the light from said surface each of which is located so as to receive all said beams Ain different positions, respectively, behind the.
lenticle, anV objective and multizone color filter in said envelope to receive the light therefrom, anda viewing screen in the focal point of said objective.
6.-,A cathode ray tube comprising an envelope', a plu rality of electron guns therein laterally displaced respectively 120, means toproduce a plurality of converging scanning beams therefrom of varying angularity according to a succession of different-color signals, a luminescent target surfacertherefor, a succession of cylindrical lenticles located in said envelope to receive the light from said beams in different positions, respectively, behind the lcnticle, an objective and multizone color lter in said envelopeV to receive the light therefrom, andV a viewing Y i screen at'said envelope in the focal point of said'objective.
References Cited inthe le of this patent UNITED STATES PATENTS 2,479,820 2,663,821 Law v Dec. 22, 1953 2,683,834 wright V July 13, 1954 FOREIGN PATENTS 868,403
I Devel-6 Aug. 23, 1949 France Sept. 29, 1941
US481661A 1955-01-13 1955-01-13 Cathode ray television receiver tube and method of using the same Expired - Lifetime US2807737A (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2907917A (en) * 1956-10-03 1959-10-06 Sucher Jerome Color television tube with polarizing filter
US2923844A (en) * 1956-02-04 1960-02-02 Gen Electric Cathode ray tube structure including convergence system
US2955219A (en) * 1959-02-16 1960-10-04 Rauland Corp Electron discharge device
US3048655A (en) * 1960-05-31 1962-08-07 Gen Electric Optical light valve
US3174140A (en) * 1959-07-01 1965-03-16 Ibm Magneto-optical recording and readout device
US3510570A (en) * 1966-10-03 1970-05-05 Xerox Corp Electronic lenticular display system
JPS5039872A (en) * 1973-08-11 1975-04-12
US5021931A (en) * 1989-05-31 1991-06-04 Pioneer Electronic Corporation Lenticular luminescent screen

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR868403A (en) * 1939-02-04 1941-12-30 Telefunken Gmbh Cathode ray tube for transmitting or receiving images transmitted line by line, in particular for color television
US2479820A (en) * 1947-05-01 1949-08-23 Remington Rand Inc Color television system
US2663821A (en) * 1951-06-16 1953-12-22 Rca Corp Masked target kinescope
US2683834A (en) * 1950-10-07 1954-07-13 Wright Arthur Cathode-ray tube for color television receivers

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR868403A (en) * 1939-02-04 1941-12-30 Telefunken Gmbh Cathode ray tube for transmitting or receiving images transmitted line by line, in particular for color television
US2479820A (en) * 1947-05-01 1949-08-23 Remington Rand Inc Color television system
US2683834A (en) * 1950-10-07 1954-07-13 Wright Arthur Cathode-ray tube for color television receivers
US2663821A (en) * 1951-06-16 1953-12-22 Rca Corp Masked target kinescope

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2923844A (en) * 1956-02-04 1960-02-02 Gen Electric Cathode ray tube structure including convergence system
US2907917A (en) * 1956-10-03 1959-10-06 Sucher Jerome Color television tube with polarizing filter
US2955219A (en) * 1959-02-16 1960-10-04 Rauland Corp Electron discharge device
US3174140A (en) * 1959-07-01 1965-03-16 Ibm Magneto-optical recording and readout device
US3048655A (en) * 1960-05-31 1962-08-07 Gen Electric Optical light valve
US3510570A (en) * 1966-10-03 1970-05-05 Xerox Corp Electronic lenticular display system
JPS5039872A (en) * 1973-08-11 1975-04-12
JPS579187B2 (en) * 1973-08-11 1982-02-19
US5021931A (en) * 1989-05-31 1991-06-04 Pioneer Electronic Corporation Lenticular luminescent screen

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