US3173049A - Printing head in cathode ray tube face - Google Patents

Printing head in cathode ray tube face Download PDF

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US3173049A
US3173049A US131337A US13133761A US3173049A US 3173049 A US3173049 A US 3173049A US 131337 A US131337 A US 131337A US 13133761 A US13133761 A US 13133761A US 3173049 A US3173049 A US 3173049A
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envelope
electrodes
printing
cathode ray
electrode
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Robert E Benn
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Unisys Corp
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Burroughs Corp
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J31/00Cathode ray tubes; Electron beam tubes
    • H01J31/02Cathode ray tubes; Electron beam tubes having one or more output electrodes which may be impacted selectively by the ray or beam, and onto, from, or over which the ray or beam may be deflected or de-focused
    • H01J31/06Cathode ray tubes; Electron beam tubes having one or more output electrodes which may be impacted selectively by the ray or beam, and onto, from, or over which the ray or beam may be deflected or de-focused with more than two output electrodes, e.g. for multiple switching or counting
    • H01J31/065Cathode ray tubes; Electron beam tubes having one or more output electrodes which may be impacted selectively by the ray or beam, and onto, from, or over which the ray or beam may be deflected or de-focused with more than two output electrodes, e.g. for multiple switching or counting for electrography or electrophotography, for transferring a charge pattern through the faceplate

Definitions

  • the electrographic recording process consists broadly of three steps.
  • the first step comprises establishing, or printing, electrically charged areas on selected portions of the recording medium, which areas are representative of information.
  • the second step consists of developing such charged areas on the recording medium, by making them visible, for example.
  • the third step which is optional, consists in fixing or rendering such developed areas substantially permanent. In the electrographic recording process these three steps take place sequentially and at physically separate locations.
  • the present invention has for its primary purpose to incorporate the teaching in the above mentioned Benn, Howell and Sakurai co-pending application in a cathode ray tube, by incorporating a dual-electrode (initiating and print) printing means in the envelope structure of such a tube.
  • a particular advantage of the system taught in the above identified co-pending applications is that it is only the initiating or selection electrodes which need to be driven by such a tube, and since the occurrence of the discharge from an initiating electrode to the adjacent printing or bar electrode, which is connected to a suitable positive printing voltage, automatically brings the two electrodes within a few hundred volts of each other in potential, the voltage excursion of the initiating electrodes as a result of secondary-emission phenomena is restricted, making the operation of the system less sensitive to different secondary-emission characteristics of various targets.
  • the invention provides a cathode ray tube for use in the art of electrostatic recording or printing and comprising a hermetically sealed tube envelope having the usual cathode ray beam generating and deflecting means in one portion and a beam actuated printing head in another portion.
  • the head is positioned so that the cathode ray beam can impinge upon and energize an initiating electrode to affect printing in the manner set forth in the above identified Benn, Howell and Sakurai application.
  • the print head comprises at least one row of initiating electrodes formed by pins extending through the envelope and hermetically sealed therein with their inner ends positioned to be struck by the cathode ray beam, and their exterior ends terminating on an outer surface of the envelope.
  • a bar printing electrode is positioned closely adjacent and across the ends of the pin electrodes.
  • FIG. 1 is a schematic view of a cathode ray tube incorporating a pin-bar electrostatic printing matrix in accordance with the invention
  • FIG. 2 is an end view of the cathode ray tube of FIG. 1 showing the pin-bar matrix
  • FIG. 3 is a greatly enlarged fragmentary sectional view taken through the face plate of the cathode ray tube and showing the construction of the pin-bar printing elements;
  • FIG. 4 is a view similar to FIG. 3 but showing a moditied form of the invention.
  • a combined cathode ray pin-bar electrostatic recording and printing tube exemplary of the preferred form of the invention, comprises a glass envelope 10 having a narrow neck portion 12 and a flared opposite end portion 14, having a faceplate 16 sealed thereto.
  • the beam producing apparatus such as an electron gun 18 of conventional construction is positioned in the narrow neck portion 12 of the tube. While only one gun is shown in this embodiment it will be understood that the invention contemplates more if desired.
  • deflection plates 20 are provided adjacent the gun for cooperation with suitable well known circuitry, not shown, to deflect the beam in the manner and for the purpose described hereinafter.
  • the faceplate 16 is formed by a sheet of glass 22 (FIG. 3) and has provided therein a pin-bar electrostatic printing head comprising at least one but preferably a plurality of rows 24 of pin electrodes 26 extending completely through the plate 22 with their inner ends 28 preferably flush with the inner surface 30 of the faceplate 22 and their outer ends 32 extending slightly beyond the outer face 34 of the plate 22, for the purpose to be described below.
  • a pin-bar electrostatic printing head comprising at least one but preferably a plurality of rows 24 of pin electrodes 26 extending completely through the plate 22 with their inner ends 28 preferably flush with the inner surface 30 of the faceplate 22 and their outer ends 32 extending slightly beyond the outer face 34 of the plate 22, for the purpose to be described below.
  • pin-bar electrostatic printing head comprising at least one but preferably a plurality of rows 24 of pin electrodes 26 extending completely through the plate 22 with their inner ends 28 preferably flush with the inner surface 30 of the faceplate 22 and their outer ends 32 extending slightly beyond the outer face 34 of the plate
  • Each row 24 of pins is provided with a common bar electrode 36 positioned across and closely adjacent the projecting ends 32 of the pins.
  • the pins and bars may be secured to the faceplate 22 in any of various methods, two of which have been shown here in FIGS. 3 and 4.
  • the pins are secured through the faceplate by softening the plate sufficiently for the pins to be pushed through the plate.
  • the inner end 28 of the pins is ground off flush with the inner surface 30 while the outer ends 32 are permitted to extend beyond the plate to an extent slightly beyond that desired for the finished product, as indicated by the broken lines 38.
  • the bar electrodes 36 are then positioned across the ends, as indicated by the full and broken lines, and secured thereat by epoxy resin or molten glass frit 40 which may be sprayed or otherwise applied over the ends 32 of the pins and the bar electrodes 36.
  • the frit is melted by subjecting it to necessary heat after which it is allowed to cool and harden, thus to adhere to outer surface 34 of faceplate 22 and bond the bar electrodes 36 closely adjacent to the ends 32 of the pin electrodes 26.
  • the frit 40 After the frit 40 has hardened the excess end portions of the pin and bar electrodes are ground off to a planar surface 42 across which the recording medium 43 may be fed by suitable means not shown but which is fully described in the above identified co-pending application.
  • the pin and bar electrodes 46 and 47 respectively are secured within the faceplate 48 by first positioning the electrodes and then pouring molten glass around them in a mold to form the plate.
  • the invention provides a combined pin-bar electrostatic recording or printing means in a cathode ray tube whereby the cathode ray is eifective to energize the initiating pin electrode 26 by impingement on the inner face thereof to effect printing on a recording medium.
  • a cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of first electrodes extending through a wall of said envelope at said second portion with a portion of each on the inner side arranged to be impinged by said beam selectively, and another portion on the outer side arranged in a predetermined array, and a second electrode electrically insulated from the cathode beam and fixed to the exterior of said envelope adjacent to the outer portion of each said first electrodes and forming therewith an array of electrodes capable of printing or recording electrostatically on a record medium.
  • a cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of print initiating electrodes extending through a wall of said envelope at said second portion with a portion of each on the inner side arranged to be impinged by said beam selectively, and another portion on the outer side arranged in a row, and a printing electrode electrically insulated from the cathode beam and fixed to the exterior of said envelope closely adjacent to and extending across the outer portions of said initiating electrodes and forming therewith a row of pin-bar electrodes capable of printing or recording electrostatically on a record medium.
  • a cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of print initating electrodes extending through a wall of said envelope at said second portion with a portion of each on the inner side arranged to be impinged by said beam selectively, and another portion of each on the outer side all arranged in a plurality of aligned rows, and a printing electrode electrically insulated from the cathode beam and fixed to the exterior of said envelope adjacent to and across the outer portion of each row of said initiating electrodes and forming therewith a matrix of pin-bar electrodes capable of printing or recording electrostatically on a record medium.
  • a cathode ray tube usable as an electrostatic printing head comprising, an elongated hermetically sealed envelope of electrically insulating material, means in one end of said envelope for generating a cathode beam and directing it to a second portion, means for deflecting said beam, a plurality initiating electrodes extending through the faceplate of said envelope at the opposite end of the envelope with a portion of each on the inner surface of said faceplate and arranged to be impinged by said beam selectively, and another portion on the outer side of said faceplate arranged in a plurality of aligned rows, and printing electrodes electrically insulated from the cathode beam and fixed to the exterior surface of said faceplate adjacent to and across the outer portion of said initiating electrodes and forming therewith a matrix of pin-bar electrodes capable of printing or recording electrostatically on a record medium.
  • a cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of initiating pin electrodes extending through and sealed in a wall of said envelope at said second portion with a first portion of each flush with the inner face of said second portion of said envelope and arranged to be impinged by said beam selectively, and a second portion flush with the outer face of said second portion of said envelope and arranged in a row, and a bar electrode electrically insulated from the cathode beam and fixed to and flush with said outer face'closely adjacent to and extending across the outer portion of said initiating electrodes and forming therewith a row of combined pin-bar electrodes capable of printing or recording electrostatically on a record medium.

Description

March 9, 1965 R. E. BENN 3,173,049
PRINTING HEAD IN CATHODE RAY TUBE FACE Filed Aug. 14, 1961 l E 36 32 38 42 4Q 32 \38 \36 PRINT PULSE 1 n DRIVER Fig.3
Fig.2
INVENTOR.
Fig.4 R0 ERT E. BENN AGENT United States Patent 3,173,049 PRINTING HEAD IN CATHODE RAY TUBE FACE Robert E. Benn, Broomall, Pa., assignor to Burroughs Corporation, Detroit, Mich., a corporation of Michigan Filed Aug. 14, 1961, Ser. No. 131,337 7 Claims. (Cl. 313-89) The invention hereinafter described and claimed has to do with electrostatic recording or printing. More particularly, however, it relates to cathode ray tubes incorporating electrostatic printing means in its envelope structure, but more specifically in the tube face.
The electrographic recording process consists broadly of three steps. The first step comprises establishing, or printing, electrically charged areas on selected portions of the recording medium, which areas are representative of information. The second step consists of developing such charged areas on the recording medium, by making them visible, for example. The third step, which is optional, consists in fixing or rendering such developed areas substantially permanent. In the electrographic recording process these three steps take place sequentially and at physically separate locations.
In co-pending patent application Serial No. 729,847, filed April 21, 1958, entitled Electrographic Recording Process and Apparatus by Robert E. Benn and Richard S. Sakurai, which application is assigned to the assignee of this application, the advantages of positively initiating the establishment of a charged area on a recording medium by creating an electrical discharge between an initiating electrode and a print electrode are set forth. In this co-pending application a separate pulse generating source for each print electrode and each initiating electrode in a matrix print head is required. The simultaneous occurrence or application of print and initiating pulses to corresponding print and initiating electrodes initiates the establishment of a charged area on the recording medium located in the gap between the pulsed print and initiating electrodes of the print head and a back electrode.
Great simplification in the printing station, in the structure of the print heads, and the necessary control and pulse generating circuitry required to print alphanumeric information for example, results when one of the types of the electrodes in the matrix print heads, the print electrode, for example, are connected in parallel. Still greater simplification is possible if each row of parallel connected print electrodes is replaced by a bar electrode, as described and claimed in the co-pending application Serial No. 734,253, filed May 9, 1958, now Patent No. 3,068,479, entitled Electrographic Recording Apparatus, by Robert E. Benn, Richard S. Howell and Richard S. Sakurai, which application is assigned to the assignee of the present application.
The present invention has for its primary purpose to incorporate the teaching in the above mentioned Benn, Howell and Sakurai co-pending application in a cathode ray tube, by incorporating a dual-electrode (initiating and print) printing means in the envelope structure of such a tube. A particular advantage of the system taught in the above identified co-pending applications is that it is only the initiating or selection electrodes which need to be driven by such a tube, and since the occurrence of the discharge from an initiating electrode to the adjacent printing or bar electrode, which is connected to a suitable positive printing voltage, automatically brings the two electrodes within a few hundred volts of each other in potential, the voltage excursion of the initiating electrodes as a result of secondary-emission phenomena is restricted, making the operation of the system less sensitive to different secondary-emission characteristics of various targets.
3,173,049 Patented Mar. 9, 1965 Briefly the invention provides a cathode ray tube for use in the art of electrostatic recording or printing and comprising a hermetically sealed tube envelope having the usual cathode ray beam generating and deflecting means in one portion and a beam actuated printing head in another portion. The head is positioned so that the cathode ray beam can impinge upon and energize an initiating electrode to affect printing in the manner set forth in the above identified Benn, Howell and Sakurai application. In its preferred form, the print head comprises at least one row of initiating electrodes formed by pins extending through the envelope and hermetically sealed therein with their inner ends positioned to be struck by the cathode ray beam, and their exterior ends terminating on an outer surface of the envelope. A bar printing electrode is positioned closely adjacent and across the ends of the pin electrodes.
The invention will be more fully appreciated from the following description of the preferred embodiment thereof taken in conjunction with the appended drawings, in which:
FIG. 1 is a schematic view of a cathode ray tube incorporating a pin-bar electrostatic printing matrix in accordance with the invention;
FIG. 2 is an end view of the cathode ray tube of FIG. 1 showing the pin-bar matrix;
FIG. 3 is a greatly enlarged fragmentary sectional view taken through the face plate of the cathode ray tube and showing the construction of the pin-bar printing elements; and
FIG. 4 is a view similar to FIG. 3 but showing a moditied form of the invention.
Now with reference to the details of the various figures of drawings, and first to FIG. 1, it is seen that a combined cathode ray pin-bar electrostatic recording and printing tube exemplary of the preferred form of the invention, comprises a glass envelope 10 having a narrow neck portion 12 and a flared opposite end portion 14, having a faceplate 16 sealed thereto. The beam producing apparatus such as an electron gun 18 of conventional construction is positioned in the narrow neck portion 12 of the tube. While only one gun is shown in this embodiment it will be understood that the invention contemplates more if desired. When necessary, deflection plates 20 are provided adjacent the gun for cooperation with suitable well known circuitry, not shown, to deflect the beam in the manner and for the purpose described hereinafter.
The faceplate 16 is formed by a sheet of glass 22 (FIG. 3) and has provided therein a pin-bar electrostatic printing head comprising at least one but preferably a plurality of rows 24 of pin electrodes 26 extending completely through the plate 22 with their inner ends 28 preferably flush with the inner surface 30 of the faceplate 22 and their outer ends 32 extending slightly beyond the outer face 34 of the plate 22, for the purpose to be described below. As seen in FIG. 2 in this preferred form of invention there are provided five vertical rows of 7 pins each thus to form a well known 5 x 7 printing matrix.
Each row 24 of pins is provided with a common bar electrode 36 positioned across and closely adjacent the projecting ends 32 of the pins. The pins and bars may be secured to the faceplate 22 in any of various methods, two of which have been shown here in FIGS. 3 and 4. In FIG. 3, for example, the pins are secured through the faceplate by softening the plate sufficiently for the pins to be pushed through the plate. Preferably the inner end 28 of the pins is ground off flush with the inner surface 30 while the outer ends 32 are permitted to extend beyond the plate to an extent slightly beyond that desired for the finished product, as indicated by the broken lines 38. The bar electrodes 36 are then positioned across the ends, as indicated by the full and broken lines, and secured thereat by epoxy resin or molten glass frit 40 which may be sprayed or otherwise applied over the ends 32 of the pins and the bar electrodes 36. The frit is melted by subjecting it to necessary heat after which it is allowed to cool and harden, thus to adhere to outer surface 34 of faceplate 22 and bond the bar electrodes 36 closely adjacent to the ends 32 of the pin electrodes 26. After the frit 40 has hardened the excess end portions of the pin and bar electrodes are ground off to a planar surface 42 across which the recording medium 43 may be fed by suitable means not shown but which is fully described in the above identified co-pending application.
It is understood, as described in the above mentioned Benn, Howell and Sakurai application, that in use the bar electrodes are connected to a suitable positive printing voltage as indicated at 44, and that a grounded back electrode 45 is provided.
In the modification shown in FIG. 4 the pin and bar electrodes 46 and 47 respectively, are secured within the faceplate 48 by first positioning the electrodes and then pouring molten glass around them in a mold to form the plate.
Thus it is seen that the invention provides a combined pin-bar electrostatic recording or printing means in a cathode ray tube whereby the cathode ray is eifective to energize the initiating pin electrode 26 by impingement on the inner face thereof to effect printing on a recording medium.
What is claimed is:
1. A cathode ray tube usable as an electrostatic printing head-comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathodebeam and directing it to a second portion, a first electrode extending through a wall of said envelope at said second portion with a portion thereof on the inner side in a position to be impinged by said beam, and another portion on the outer side, and a second electrode electrically insulated from the cathode beam and fixed to the exterior of said envelope closely adjacent to the outer portion of said first electrode and forming therewith a pair of electrodes capable of printing or recording electrostatically on a record medium.
2. A cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of first electrodes extending through a wall of said envelope at said second portion with a portion of each on the inner side arranged to be impinged by said beam selectively, and another portion on the outer side arranged in a predetermined array, and a second electrode electrically insulated from the cathode beam and fixed to the exterior of said envelope adjacent to the outer portion of each said first electrodes and forming therewith an array of electrodes capable of printing or recording electrostatically on a record medium.
3. A cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of print initiating electrodes extending through a wall of said envelope at said second portion with a portion of each on the inner side arranged to be impinged by said beam selectively, and another portion on the outer side arranged in a row, and a printing electrode electrically insulated from the cathode beam and fixed to the exterior of said envelope closely adjacent to and extending across the outer portions of said initiating electrodes and forming therewith a row of pin-bar electrodes capable of printing or recording electrostatically on a record medium.
4. A cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of print initating electrodes extending through a wall of said envelope at said second portion with a portion of each on the inner side arranged to be impinged by said beam selectively, and another portion of each on the outer side all arranged in a plurality of aligned rows, and a printing electrode electrically insulated from the cathode beam and fixed to the exterior of said envelope adjacent to and across the outer portion of each row of said initiating electrodes and forming therewith a matrix of pin-bar electrodes capable of printing or recording electrostatically on a record medium.
5. A cathode ray tube usable as an electrostatic printing head comprising, an elongated hermetically sealed envelope of electrically insulating material, means in one end of said envelope for generating a cathode beam and directing it to a second portion, means for deflecting said beam, a plurality initiating electrodes extending through the faceplate of said envelope at the opposite end of the envelope with a portion of each on the inner surface of said faceplate and arranged to be impinged by said beam selectively, and another portion on the outer side of said faceplate arranged in a plurality of aligned rows, and printing electrodes electrically insulated from the cathode beam and fixed to the exterior surface of said faceplate adjacent to and across the outer portion of said initiating electrodes and forming therewith a matrix of pin-bar electrodes capable of printing or recording electrostatically on a record medium.
6. A cathode ray tube usable as an electrostatic printing head comprising, an hermetically sealed envelope of electrically insulating material, means in one portion of said envelope for generating a cathode beam and directing it to a second portion, a plurality of initiating pin electrodes extending through and sealed in a wall of said envelope at said second portion with a first portion of each flush with the inner face of said second portion of said envelope and arranged to be impinged by said beam selectively, and a second portion flush with the outer face of said second portion of said envelope and arranged in a row, and a bar electrode electrically insulated from the cathode beam and fixed to and flush with said outer face'closely adjacent to and extending across the outer portion of said initiating electrodes and forming therewith a row of combined pin-bar electrodes capable of printing or recording electrostatically on a record medium.
7. A construction according to claim 6 wherein there is provided a plurality of rows of such pin-bar electrodes thus to form a'matrix of such electrodes.
References Cited in the file of this patent UNITED STATES PATENTS 2,918,580 Howell Dec. 22, 1959 2,978,607 Borden Apr. 4, 1961 3,041,611 Moss June 26, 1962 FOREIGN PATENTS 1,224,349 France Feb. 8, 1960

Claims (1)

1. A CATHODE RAY TUBE USABLE AS AN ELECTROSTATIC PRINTING HEAD COMPRISING, AN HERMETICALLY SEALED ENVELOPE OF ELECTRICALLY INSULATING MATERIAL, MEANS IN ONE PORTION OF SAID ENVELOPE FOR GENERATING A CATHODE BEAM AND DIRECTING IT TO A SECOND PORTION, A FIRST ELECTRODE EXTENDING THROUGH A WALL OF SAID ENVELOPE AT SAID SECOND PORTION WITH A PORTION THEREOF ON THE INNER SIDE IN A POSITION TO BE IMPINGED BY SAID BEAM, AND ANOTHER PORTION ON THE OUTER SIDE, AND A SECOND ELECTRODE ELECTRICALLY INSULATED FROM THE CATHODE BEAM AND FIXED TO THE EXTERIOR OF SAID ENVELOPE CLOSELY ADJACENT TO THE OUTER PORTION OF SAID FIRST ELECTRODE AND FORMING THEREWITH A PAIR OF ELECTRODES CAPABLE OF PRINTING OR RECORDING ELECTROSTATICALLY ON A RECORD MEDIUM.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3321657A (en) * 1962-12-18 1967-05-23 American Optical Corp Electrostatic printing cathode ray tube with conducting wires in face plate
US3566110A (en) * 1968-02-20 1971-02-23 Rca Corp Electrostatic charging apparatus with means to blow electrostatic charge onto a photoconductive surface from a remotely located corona generator
US3574909A (en) * 1965-08-30 1971-04-13 Kurt H Brenner Jr Method of reducing internal matrix arcing in electrostatic printing tubes

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2918580A (en) * 1958-05-09 1959-12-22 Burroughs Corp Electrographic printing head
FR1224349A (en) * 1958-05-09 1960-06-23 Burroughs Corp Electrographic recording device
US2978607A (en) * 1958-02-07 1961-04-04 Dick Co Ab Electrostatic writing tube
US3041611A (en) * 1957-05-01 1962-06-26 Burroughs Corp Electrographic printing tube having filamentary conductive target

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3041611A (en) * 1957-05-01 1962-06-26 Burroughs Corp Electrographic printing tube having filamentary conductive target
US2978607A (en) * 1958-02-07 1961-04-04 Dick Co Ab Electrostatic writing tube
US2918580A (en) * 1958-05-09 1959-12-22 Burroughs Corp Electrographic printing head
FR1224349A (en) * 1958-05-09 1960-06-23 Burroughs Corp Electrographic recording device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3321657A (en) * 1962-12-18 1967-05-23 American Optical Corp Electrostatic printing cathode ray tube with conducting wires in face plate
US3574909A (en) * 1965-08-30 1971-04-13 Kurt H Brenner Jr Method of reducing internal matrix arcing in electrostatic printing tubes
US3566110A (en) * 1968-02-20 1971-02-23 Rca Corp Electrostatic charging apparatus with means to blow electrostatic charge onto a photoconductive surface from a remotely located corona generator

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