US3051044A - Recording and projection system - Google Patents
Recording and projection system Download PDFInfo
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- US3051044A US3051044A US838973A US83897359A US3051044A US 3051044 A US3051044 A US 3051044A US 838973 A US838973 A US 838973A US 83897359 A US83897359 A US 83897359A US 3051044 A US3051044 A US 3051044A
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Images
Classifications
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/22—Apparatus for electrographic processes using a charge pattern involving the combination of more than one step according to groups G03G13/02 - G03G13/20
- G03G15/32—Apparatus for electrographic processes using a charge pattern involving the combination of more than one step according to groups G03G13/02 - G03G13/20 in which the charge pattern is formed dotwise, e.g. by a thermal head
- G03G15/326—Apparatus for electrographic processes using a charge pattern involving the combination of more than one step according to groups G03G13/02 - G03G13/20 in which the charge pattern is formed dotwise, e.g. by a thermal head by application of light, e.g. using a LED array
- G03G15/328—Apparatus for electrographic processes using a charge pattern involving the combination of more than one step according to groups G03G13/02 - G03G13/20 in which the charge pattern is formed dotwise, e.g. by a thermal head by application of light, e.g. using a LED array using a CRT
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03G—ELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
- G03G15/00—Apparatus for electrographic processes using a charge pattern
- G03G15/22—Apparatus for electrographic processes using a charge pattern involving the combination of more than one step according to groups G03G13/02 - G03G13/20
- G03G15/221—Machines other than electrographic copiers, e.g. electrophotographic cameras, electrostatic typewriters
Definitions
- This invention relates generally to a recording and projection system wherein light or electron images are recorded as electrostatic latent images.
- the invention relates to and includes an endless belt means capable of recording light or electron images presented thereto as electrostatic latent images thereupon.
- the latent image on the belt means is then converted through the use of liquid or powder developers into a visible image.
- the visible image may be transmitted from the belt means to a light transmitting means in the form of modulated light. Movement of the light transmitting means is synchronized with the movement of the belt means to present upon a final light receptive means a stationary reproduction tof the originally presented image.
- Light or electron images may be recorded respectively upon photoconductive or resistive media as electrostatic latent images.
- the latent images may be developed thereafter into visible images by application of electrostatically attractable powders, for example, as is taught in McNaney U.S. Patents Nos. 2,736,770, 2,808,023 and 2,824,813, or by liquids such as taught by the U.S. patent issued to Mayer, No. 2,890,174, patented June 9, 1959. Any of these well-known methods and apparatus may be used to develop the latent electrostatic image into the visible image.
- any applications for commercial activities of such rapid recording and projection ⁇ systems also exist, especially in air traffic control.
- traffic situation displays preferably viewable immediately after presentation or ldetection by radars.
- the present invention solves the problem of rapidly recording, and subsequently presenting for projection, the recorded images for viewable or other displays.
- the present invention utilizes rapid conversion of the image presented in either light form through the use of a cathode ray tube, for example, or in electronic form through direct electron transfer, into electrostatic latent images.
- the electrostatic images are recorded as charge patterns or latent images upon an endless belt means.
- the belt means preferably is in continuous motion.
- the latent images recorded thereon are therefore transported rather rapidly from original recordation to a subsequent position for developing the image into visual images.
- Continued movement of the belt means presents the visual images to the next successive step at which the visual image, upon the endless belt means, is irradiated or illuminated, either by reeetion of light therefrom, or, by shadowing of light therethrough, providing a visual light reproduction of the visual images.
- the belt in its continuous movement likewise presents an image that is moving therewith. Therefore, in order to stop the image upon a subsequent recording medium, light receptive means, or viewing screen, it is necessary to use a light transmitting means synchronized in movement with the movenient cf the belt means, so as to provide thereon a stationary image reproduction of the visual images.
- the light transmitting means may be a movable mirror, a rotating multisided mirror, or a prism.
- the preferred embodiment of the present invention effects such synchronization through the utilization of a common motor or motive mean-s to drive both the light transmitting means and the pulley ⁇ driving means for the endless belt means.
- the light transmitting means of the preferred embodiment is synchronized with the movement of the belt means through use of cams to move a mirror, for example, baci; and forth, or oscillatingly in synchronisin with the rotation of the endless belt.
- a multisided mirror or prism could be used and rotated in synchronization with the movement of the endless belt means by having the mirror or prism ⁇ geared to the same shaft driving the belt means.
- the novel combination also produces a system which is constructable with generally commercially available parts. This further increases the reliability and reduces the cost of constructing the overall system.
- the system also is very flexible, inthat it can record in the form of an image an .object directly, can use a cathode ray tube or a shaped beam tube as its image source, or, can use electronic or electrostatic image sources and effect recordation of each. Such flexibility is highly desirable in todays complex information display, television communication and data processing systems, and further adds greatly to the desirability and utility of the invention.
- lt is another object of the present invention to provide a recording portion of the recording and projection system which is in constant motion, thereby avoiding the necessity of starting and stopping said recording medium.
- lt is another object of the present invention to provide a system including light gathering and reflective means of relatively low inertia to permit compensation for the surface movement of the endless belt means, thereby providing a stationary final image projection.
- FGURE l is a diagrammatic representation of the recording and projection system embodying the invention wherein 4the images are provided in the form of light on the -face of a cathode ray tube;
- FIGURE 2 is a diagrammatic representation of the invention wherein the images yare presented in the form of electron charges through pin-type arrays herein 'exemplified as a cathode ray tube having pins passing through its screen or face to carry the electron image impinged thereon by conduction to direct contact with the recording or belt means;
- FIGURE 3 is a further diagrammatic representation exemplifying an embodiment of the invention wherein the image is optically photographed and optically moved in synchronism with and for recordation on the belt means;
- FIGURE 4 is a further embodiment of the present invention exemplified diagrammatically as encased in a projection console wherein the images are presented upon a shaped beam tube screen in the form of light, and rccorded and transmitted from the belt means by a continuously rotating light transmitting means; and
- FIGURE 5 is a detailed diagrammatic view of a light limiter means used in the embodiment of FIGURE 4.
- a means It exemplified as a cathode ray tube or a shaped beam tube, is used to present predetermined intelligible information or images.
- An endless belt means 1I responsive to the images presented by the means 10, records the images from means l@ thereon as electrostatic latent images.
- the endless belt means lli is exemplified in this embodiment as a belt having a photoconductive surface thereupon to respond to light images and transform the light images into electrostatic latent images.
- the belt means 1I is carried by means I4 shown as pulleys, at least one of the pulleys being driven for rotation.
- the belt means Il rotates upon the pulleys in the direction of its endlessness.
- the latent image isrecorded upon the belt means 11 from the means itl, and is transported from this point of origin to subsequent points for development, irradia-tion and subsequent projection as visual images from the belt means to a light transmitting means 16.
- the latent images are developed by a'developing means l5, disposed adjacent the belt means Il, which is exemplified herein as an orifice blowing electrostatically attractable particles or powders onto the image.
- the powders adhere to the electrostatic latent CFI A iima-ge and convert it into a visual image.
- liquid electrostatic developers could also be used.
- the visual image may then be illuminated by a light means 123.
- Light means 18 is shown here irradiating the visual image by reflecting light modulated iu accord with the visual images from the light reflecting photoconductive surface to the light transmitting means 16.
- the light transmitting means I6 is exemplified in this embodiment as the mirror capable of moving back and forth, in an oscillatory movement and in movement synchronized with the rotation of belt means.
- Means 16 is disposed in light-receiving relation to the irradiated visual images to redirect the visual images from the belt means to a light receptive ymeans Ztl.
- Light receptive means 2t may be photographic film, photoconductive surface or a screen, and is herein exemplified as a screen.
- Means 22 is provided to remove the visual images from the belt means 11, and, subsequent thereto means 23 is so disposed as to re-charge the belt means te again be receptive to renewed latent image orientation thereon.
- means 22, herein exemplified as a brush, for example, and means 23 herein exemplified as a plurality of high potential carrying charging wires, are old in the art and well-known.
- a continually rotating belt means 11 would result in a jittery or irradically moving visual image to be presented on a light receptive means. It is therefore necessary to compensate for the movement of the belt means by synchronizing the movement of the belt means 1l with the movement or rotation of light transmitting means 16. Such synchronizing will achieve stationary reproduction of the visual images irradiated upon the belt means Il upon the presentation of the images at the light receptive means or ⁇ screen 20.
- the synchronization is accomplished through use of a common motor drive 25, which rotates simultaneously the pulleys 14 carrying the endless belt means 1i, as well as a cam 27 for the movement of the light transmitting means i6.
- the motor drive 25 is operated under command of the same sync signals as is the tube It); therefore, cathode ray tube displays, belt movement t and light transmitting means are all under control of a common sync signal.
- the control is unidirectional; there is no feedback exemplified in this system.
- the light means if; may also be shuttered by utilization of a shutter cam arrangement 30 also driven by the motor 25.
- the synchronized system described is exemplary, and is shown in a very simplified form so as to reduce to a minimum the parts or portions of this system which are unreliable or have lost motion.
- the tube 10 may be of the type shown in my U.S. Patent No. 2,735,956 or 2,761,988.
- Each of these tubes may be driven by the exemplary circuitry herein collectively shown as tube circuits 32 in accordance with the detailed teachings of McNaney U.S. Patents Nos. 2,736,770 and 2,850,723.
- any type of cathode ray tube presenting information such as radar or Lissajous type information coulde be utilized, provided the information desired to be recorded is so presented.
- FIGURE 1 exemplifies the Presentation of such a signal to a motor and tube control circuitry 35.
- the output of circuitry 35 namely, a sync signal, is furnished to the tube control circuitry 32, and the motor drive circuitry 37.
- exemplary ademas motor and tube control circuitry and motor drive circuitry reference may be had to McNaney U.S. Patent No. 2,736,770.
- lens i2 may be used to collimate the light images from screen 39 for presentation onto an image reliecting tive surface 42S disposed on, or carried upon, the endless belt means 11.
- image reliecting tive surface 42S disposed on, or carried upon, the endless belt means 11.
- photoconductive surface 45 a transparent or a non-transparent conductor may serve as the basic portion of the endless belt means 11. The conductor may be used to carry away the charges dissipated as a result of illumination of desired areas of' the photoconductor.
- the latent images may be developed, as is shown in FIGURE 1, at the subsequent step along the rotation of the belt means l1, by electrostatically attractable particle means 15.
- Means could also be a means for developing the latent images and rendering them visible as is taught in Mayer U.S. Patent No. 2,877,133, assigned to the common assignee hereof, and 2,890,174, 2,891,911 and 2,878,120. All these patents teach the art in utilizing electrostatically attractable particles suspended in liquids as means for development of latent images.
- the visible image As the visible image is disposed so as to communicate with the light illumination under the influence of the light means 18, the visual image may be reflected by the radiation of light means 18 thereupon, ⁇ from the photoconductive material (which acts as a light reflector) to the surface of a movable mirror 48.
- Mirror 48 is included and a part of the light transmitting means 16.
- Mirror 48 in its predetermined movement and positioning, redirects the visual images therefrom to a lens means Sil'.
- Lens Sil images the visual image onto the light receptive means 20.
- the light receptive means Ztl is herein exemplified as a screen 52, it should ⁇ be understood as previously stated that any means of recording light information such as photoconductors, light responsive photographic paper, beaded reflective screens and the like, may all be utilized to provide an instantaneous or a permanent record of the visual images presented thereon.
- the light means 18 may continuously illuminate the area on the belt means 11 carrying the visual images, if it is desired to use a frame-at-a-time projection, for example, the light 18 may be shuttered by a shutter means 3i).
- Shutter 55 may interrupt the presentation of light to the ⁇ belt means 11 as desired, and may be synchronized to belt means and light transmitting means by having its shaft mechanically linked to the common drive shaft of motor Z5.
- cam 27 driven by the motor 25.
- a cam follower or connecting rod 57 rides along the cammed surfaces of the cam 27, and, being pins 7@ of the electron image information tube 68.
- bar lever and crank arrangement 59 wherein up and down movement of the bar 59 causes a rotation of the crank carrying the mirror, and causes desired oscillatory movement of the mirror 48.
- bar lever and crank movement is well-known in the art, and is therefore merely diagrammatically shown herein.
- the end of the bar 59 and mirror 481 may be resiliently mounted with respect to a fixed point 60 by, for example, a spring 61. Therefore, upward movement of the connecting rod 57 exerts a pressure against the bar 59 to cause rotary motion by the crank carrying the mirror 48, thereby moving the mirror in synchronism with the rotation of the belt means 11.
- the image reflecting means 115 may consist of a mirror 116, which is rotatable about a fixed point 117, by a bar 118 and a connecting rod 119, similar to that which is used in combination with the light transmitting means 16. To effect a back and forth motion or oscillatory movement of mirror 116, there is a cam 114 driven by the motor 25.
- the cam follower and connecting rod 119 ride along the cammed surfaces of the cam 114, and are connected with a bar lever and crank arrangement 11S, wherein up and down movements of the bar 118 cause corresponding movements of the mirror 116.
- the end of the bar lll and mirror 116 may be resiliently mounted with respect to a fixed point 117 by, for example, a spring 113. Therefore, upward movement of the connecting rod 119 exerts a pressure against the bar 118 to cause motion by the crank carrying the mirror 116, thereby moving the mirror in synchronism with the rotation of the belt means 1l1.
- Images from the screen 39 of tube 1@ may be made to move at the same rate of travel as the surface of the belt means 11.
- the mirror 116 therefore permits images to be recorded on the belt means as stationary latent images.
- FIGURE 2 shows a further embodiment of the invention wherein the predetermined intelligible images are presented by a means 65.
- Means 65 may, if desired, be an electrically actuatable array of pins capable of transmitting electrical energy therethrough in response to a program presented to said pins, presenting electron images to the belt means 11, or, as herein exemplified, it may -be a cathode ray tube having such pins imbedded in its screen 68 capable of presenting electron images thereon, for example, from television receiving circuitry or another source of control signals 69.
- Tube 65 and its circuitry are not shown in detail, as circuitry representative of the type that may be used is clearly set forth in McNaney US. Patent No. 2,777,745, in FGURES 1 and 7 thereof.
- the belt 72 may be made of a substance sold under the trademark Mylan Belt 72 therefore is highly resistive material capable of retaining the latent electrostatic charges thereon, and is also transparent to light irradiation therethrough. Therefore, the irradiating means or light means 13 may be disposed Within or inside the rotating belt means Il irradiating or projecting light from the light means through the belt 72. The visual image is thereby shadowed or illuminated, projecting it onto the surface of mirror 43 of the light transmitting means lr6 for retransmission onto the light receptive means Ztl as a stationary image.
- While light means 18 may directly illuminate or irradiate the visual images on the belt means lll, it .may do so indirectly through the utilization of an additional reflective means' or the mirror 75. Light may be collimated thereonto by a lens 7?.
- the shutter means 30 may be synchronized with rotating belt means ll and the light transmitting means i6 through common motor drive 25.
- FIGURE 3 shows a partial system which may in its remainder be made in 'accord with the rest of FIGURE l or FIGURE 2.
- the embodiment of FIGURE 3 shows an image 8S being photographed through an aperture S2 of a light excluding housing 34, which housing is positioned in light transmitting and retaining relation to the belt means lil.
- a rotating shutter 86 also driven by motor means 25 is'thereby synchronized with the movement of the belt means l-l.
- a lens system 9d transmits the light gathered through the aperture 82 and projects the same onto a prism 92.
- prism 92 is shown as foursided, this is exemplary only, and of course, a three-sided prism or a plurality of sides of prism may be used, as long as they are properly oriented with respect to the rotation under the influence of the motive means 25 to effect movement of the reproduced image 94 of the photographed image 30, so as to move the image 94 at the same rate of travel as the surface of the belt means lll.
- Prism 92 therefore permits the photographed image to be recorded on the belt means Il as a stationary latent image.
- the remainder of the system can be the same as that exemplified by FIGURES l and 2.
- FIGURE 4 shows a further embodiment of the invention encased preferably in a console housing diagrammatically shown herein.
- Shaped beam tube i@ is utilized to present information as is shown in FIGURE l.
- Many of the components of the system of FIGURE 4 are identical to FIGURE l or 2.
- An additional frame deflection circuitry lo@ may be provided to cause a frame-at-a-tirne deflection of the presented information.
- the frame deilection circuitry and the character selection circuitry, eX- emplied generally as 32 may of course be identical to that shown in McNaney U.S. Patent No. 2,850,723.
- the frame deflection circuitry would provide an additional function of causing a frame of information to be moved from one part of the screen 3,2 t-o another in synchronisrn with'belt l@ movements.
- Another major change in the embodiment of FEGURE 4 is use of multisided mirrors or prisms i432.
- Light transmitting means 16 using mirrors or prisms IGZ would rot-ate constantly.
- the ernbodiment of FIGURE 4 is particularly set forth in -a preferred Way to effect frame-at-a-time presentation.
- Light means 13 continuously illuminates an area on the belt means lll, Where the visual images to be displayed are recorded. To prevent overlap in illuminations and projection of subsequent frames of visual images, a light limiter means 31.04 is used.
- rl ⁇ he light limiter means lil-t is disposed adjacent the area on the belt means lll, at which the visual images are irradiated by the light means 18.
- Limiter means 194 limits the area of irradiation on the belt means ll to provide irradiation only of one frame at a time. Thus, only one frame at a time is transmitted to the continuously rotating prism or multisided mirror EQ2.
- the light transmitting means lr6 is synchronized with the rotation of belt means 1l, both being driven by a common motor 25 whose control is synchronized with the display of tube lo. Therefore, aV stationary image of the recorded visual images of belt means lil is shown, frame-at-a-time, upon the light receptive means 20.
- the light from a surface of the light transmitting means d2 is collimated by lens 5ft for projection onto the light receptive means Ztl.
- the light receptive means Ztl is herein exemplified as a ground glass screen lilo. Screen fit-6 may be viewed from the opposite side thereof by a viewer.
- the light limiter means E64 shown in greater detail in FIGURE 5., is so constructed in relation tothe position of the mirror surface M2 as to permit the illumination by the light lit of only one frame at a time; namely, frame lli), on the belt means Il.
- a successive frame lf2 will be denied irradiation until full presentation of the next of the surfaces of the mirror ⁇ ltlZ is made to the belt means Il.
- the frame Il@ -Will have advanced to a position under light limiter means m4 and be denied illumination.
- Frame Il? will then have advanced to the illuminated position Within the area permitted by the light limiter means lila on the belt means il.
- the illuminated iframe will be transmitted from the light transmitting means IM through the lens means Sil to subsequent presentation on the light receptive means Ztl.
- the combination comprising: a stationary cathode ray tube having a faceplate; means for producing a cornplete visual display on said faceplate; a Xerographic recording system, said system comprising a continuously moving endless belt clad with a photoconductive material; means for simultaneously recording all elements of said complete visual display upon said belt in the form of a latent electrostatic image which is stationary with respect to said continuously moving belt, said means comprising movable optical unit means for causing said complete display to be projected onto said continuously moving belt so that the image projected upon said belt moves at the same speed as said belt thereby providing no relative movement between said belt and said projected image; means for developing said latent electrostatic image upon said belt by xerographic methods to produce a visible image corresponding to said complete display; and means for projecting said developed visible image from said moving belt onto a stationary viewing screen, said means comprising second movable optical unit means for causing said complete visible image to appear as a stationary projected image upon said screen, whereby the complete display that appeared on ⁇ said faceplate of said tube
- a stationary cathode ray tube having a faceplate; means for producing a complete frarne of information on said faceplate; a Xcrographic recording system, said system comprising a continuously moving endless belt clad with a photoconductive material; means for simultaneously recording said complete frame of information from said faceplate onto said continuously moving belt in the form of a latent electrostatic image which is stationary with respect to said continuously moving belt, said means comprising movable mirror means for causing -said complete frame to be projected as a stationary image upon said moving belt; means for developing said latent electrostatic image upon said belt by xerographic methods to produce a visible image corresponding to said complete frame; and means for projecting said developed visible image from said moving belt onto a stationary viewing screen, said means comprising second movable mirror means for causing said complete visible image to ⁇ appear las a stationary image upon said screen, whereby the complete frame of information that appeared on said faceplate of said tube is reproduced in its entirety on said screen.
- a stationary cathode ray tube having a faceplate; means for producing successive displays on said faceplate; a xerographic recording system, said system comprising a continuously moving endless lbelt clad with a photoconductive material; means for projecting said displays in a frame-by-frame manner from said faceplate onto said belt as stationary images, said means comprising a pivota'ble mirror whose movement is synchronized with the movement ⁇ of said belt ⁇ for causing said successive frames that for-m said displays to be projected as stationary images upon successive areas of said moving ⁇ belt; means for developing said exposed areas of said belt by xerographic methods to produce successive visible images corresponding to said successive displays; and means for projecting said visible images from said belt onto a stationary viewing screen, said means comprising second pivotable mirror whose movement is synchronized with the movement of said belt 4for causing said visible images to appear on said stationary screen as successive stationary images.
Description
Aug. 28, 1962 J. T. MCNANEY RECORDING AND PROJECTION SYSTEM 4 Sheets-Sheet 2 Filed Sept. 9, 1959 ..5 munom NN mw INVENTOR JOSEPH TMC/YANN /L/m T TOQNEY.
Aug. 28, 1962 J, T. MCNANEY RECORDING AND PRGJECTIQM SYSTEM l l r L zur/wrak. Jassm 'l'.y McNA/Ev ArmQNL-sc 4 Sheets-Sheet 5 Fled Sept. 9, 1959 Aug. 28, 1962 J. T. MCNANEY RECORDING AND PROJECTION SYSTEM 4 Sheets-Sheet 4 Filed Sept. 9. 1959 JNVENToR. JOSEPH 7'. McNANEY ATTORNEY.
United States Patent @ffice 3,051,044 Patented Aug. 28, 1962 3,051,044 RECORDING AND PROBECTIUN SYSTEM Joseph T. McNaney, La Mesa, Calif., assigner to General Dynamics Corporation, Rochester, N.Y., a corporation of Delaware Filed Sept. 9, 1959, Ser. No. 838,973 3 Claims. (Cl. Sti-24) This invention relates generally to a recording and projection system wherein light or electron images are recorded as electrostatic latent images.
More particularly, the invention relates to and includes an endless belt means capable of recording light or electron images presented thereto as electrostatic latent images thereupon. The latent image on the belt means is then converted through the use of liquid or powder developers into a visible image. The visible image may be transmitted from the belt means to a light transmitting means in the form of modulated light. Movement of the light transmitting means is synchronized with the movement of the belt means to present upon a final light receptive means a stationary reproduction tof the originally presented image.
Light or electron images may be recorded respectively upon photoconductive or resistive media as electrostatic latent images. The latent images may be developed thereafter into visible images by application of electrostatically attractable powders, for example, as is taught in McNaney U.S. Patents Nos. 2,736,770, 2,808,023 and 2,824,813, or by liquids such as taught by the U.S. patent issued to Mayer, No. 2,890,174, patented June 9, 1959. Any of these well-known methods and apparatus may be used to develop the latent electrostatic image into the visible image.
ln the prior art, the visible image was thereafter transferred from a continuous photoconductor belt through direct contact, as shown in McNaney U.S. Patent No. 2,736,770, to a paper or recording means. The actual physical transfer of the particles developing the 4latent image was necessary to record them upon the paper. The recorded images on paper then could subsequently be viewed. In modern day air trafiic control systems, as well as air and land surveillance systems, government personnel and military commands ofttimes view situations in the air, on the land or on the sea as they occur. As considerable numbers of persons are present, a rather large room is often necessitated to house those who make their decisions on the basis of the recorded information. The recorded information therefore is desirably presented ou a large screen. In prior art normal presentations, it is necessary that a series of photographs be taken of the situations displayed -by the various vradar displays. This photograph is -subsequently developed in the normal timeconsuming process of silver halide film development. Thereafter the film is dried. All these -steps are necessary prior to affording one an opportunity to view the film. The film may be projected onto a large screen by projection through use of a light lantern. All this is very time consuming. It is highly desirable to a viewer to view the images or the radar presentations almost simultaneously with their recordation.
N any applications for commercial activities of such rapid recording and projection `systems also exist, especially in air traffic control. As modern aircraft increase in speed and numbers, their control in and around airports necessitates traffic situation displays, preferably viewable immediately after presentation or ldetection by radars. To this end the present invention solves the problem of rapidly recording, and subsequently presenting for projection, the recorded images for viewable or other displays.
The present invention utilizes rapid conversion of the image presented in either light form through the use of a cathode ray tube, for example, or in electronic form through direct electron transfer, into electrostatic latent images. The electrostatic images are recorded as charge patterns or latent images upon an endless belt means. The belt means preferably is in continuous motion. The latent images recorded thereon are therefore transported rather rapidly from original recordation to a subsequent position for developing the image into visual images. Continued movement of the belt means presents the visual images to the next successive step at which the visual image, upon the endless belt means, is irradiated or illuminated, either by reeetion of light therefrom, or, by shadowing of light therethrough, providing a visual light reproduction of the visual images. The belt in its continuous movement likewise presents an image that is moving therewith. Therefore, in order to stop the image upon a subsequent recording medium, light receptive means, or viewing screen, it is necessary to use a light transmitting means synchronized in movement with the movenient cf the belt means, so as to provide thereon a stationary image reproduction of the visual images. The light transmitting means may be a movable mirror, a rotating multisided mirror, or a prism.
It is therefore possible in the invention system herein presented to record an image at a time, a line at a time, or a frame at a time, as may be desired through proper timing and synchronizing of the movement `of the belt means ywith the movement of the light transmitting means. The preferred embodiment of the present invention effects such synchronization through the utilization of a common motor or motive mean-s to drive both the light transmitting means and the pulley `driving means for the endless belt means. The light transmitting means of the preferred embodiment is synchronized with the movement of the belt means through use of cams to move a mirror, for example, baci; and forth, or oscillatingly in synchronisin with the rotation of the endless belt. Of course, a multisided mirror or prism could be used and rotated in synchronization with the movement of the endless belt means by having the mirror or prism` geared to the same shaft driving the belt means.
It can be seen from this specification infra, together with the drawing, that this system lends itself to very rapid subsequent presentation of the recorded data -following its recordation. As there is no transfer of the information from the endless belt means for successive transmission onto other media (except as illuminated visual images), the possibility of error in transferring the information Vis reduced to a minimum, and speed is at a maximum. Likewise, the complexity of the system, as well as the small number of moving parts, provides the system a high degree of reliability.
Further, as -the component parts of this invention are time tested components, each capable of adequately performing the function desired of it, and as the parts are generally commercially available, the novel combination also produces a system which is constructable with generally commercially available parts. This further increases the reliability and reduces the cost of constructing the overall system. As will later be seen, the system also is very flexible, inthat it can record in the form of an image an .object directly, can use a cathode ray tube or a shaped beam tube as its image source, or, can use electronic or electrostatic image sources and effect recordation of each. Such flexibility is highly desirable in todays complex information display, television communication and data processing systems, and further adds greatly to the desirability and utility of the invention.
In addition to the objects and advantages aforestated, it is a `further obiect of the present invention to provide a system capable of rapidly recording and subsequently projecting images for viewing thereof, or for recordation,
anchoas which system is relatively simple in construction and highly reliable in operation.
It is another object of the present invention to provide a recording and projection system which is quite versatile in its reception of the form of information to be recorded thereon.
It is another object of the present invention to provide a system for recording and subsequent projection of the recorded matter, which system is relatively free of mechanical ineritas, thereby permitting a high speed of subsequent projection.
lt is another object of the present invention to provide a recording portion of the recording and projection system which is in constant motion, thereby avoiding the necessity of starting and stopping said recording medium.
lt is another object of the present invention to provide a system including light gathering and reflective means of relatively low inertia to permit compensation for the surface movement of the endless belt means, thereby providing a stationary final image projection.
Objects and advantages other than those set forth will be apparent from the following description when read in connection with the accompanying drawing, in which:
FGURE l is a diagrammatic representation of the recording and projection system embodying the invention wherein 4the images are provided in the form of light on the -face of a cathode ray tube;
FIGURE 2 is a diagrammatic representation of the invention wherein the images yare presented in the form of electron charges through pin-type arrays herein 'exemplified as a cathode ray tube having pins passing through its screen or face to carry the electron image impinged thereon by conduction to direct contact with the recording or belt means;
FIGURE 3 is a further diagrammatic representation exemplifying an embodiment of the invention wherein the image is optically photographed and optically moved in synchronism with and for recordation on the belt means;
FIGURE 4 is a further embodiment of the present invention exemplified diagrammatically as encased in a projection console wherein the images are presented upon a shaped beam tube screen in the form of light, and rccorded and transmitted from the belt means by a continuously rotating light transmitting means; and
FIGURE 5 is a detailed diagrammatic view of a light limiter means used in the embodiment of FIGURE 4.
Referring more particularly to FIGURE l, we have there shown, diagrammatically, a recording and projection system in accordance with the present invention. A means It), exemplified as a cathode ray tube or a shaped beam tube, is used to present predetermined intelligible information or images. An endless belt means 1I, responsive to the images presented by the means 10, records the images from means l@ thereon as electrostatic latent images. The endless belt means lli is exemplified in this embodiment as a belt having a photoconductive surface thereupon to respond to light images and transform the light images into electrostatic latent images. The belt means 1I is carried by means I4 shown as pulleys, at least one of the pulleys being driven for rotation. The belt means Il rotates upon the pulleys in the direction of its endlessness. The latent image isrecorded upon the belt means 11 from the means itl, and is transported from this point of origin to subsequent points for development, irradia-tion and subsequent projection as visual images from the belt means to a light transmitting means 16. The latent images, of course, are developed by a'developing means l5, disposed adjacent the belt means Il, which is exemplified herein as an orifice blowing electrostatically attractable particles or powders onto the image. For various detailed constructions thereof, reference may be had to U.S. Patents Nos. 2,808,023 and 2,824,813, The powders, of course, adhere to the electrostatic latent CFI A iima-ge and convert it into a visual image. As previously stated, liquid electrostatic developers could also be used. The visual image may then be illuminated by a light means 123. Light means 18 is shown here irradiating the visual image by reflecting light modulated iu accord with the visual images from the light reflecting photoconductive surface to the light transmitting means 16. The light transmitting means I6 is exemplified in this embodiment as the mirror capable of moving back and forth, in an oscillatory movement and in movement synchronized with the rotation of belt means. Means 16 is disposed in light-receiving relation to the irradiated visual images to redirect the visual images from the belt means to a light receptive ymeans Ztl. Light receptive means 2t) may be photographic film, photoconductive surface or a screen, and is herein exemplified as a screen.
Of course, as the endless belt means 11 continues in its motion in the direction of its endlessness about the pulleys i4, the visual images must be removed before further latent images can be received. Means 22 is provided to remove the visual images from the belt means 11, and, subsequent thereto means 23 is so disposed as to re-charge the belt means te again be receptive to renewed latent image orientation thereon. Both means 22, herein exemplified as a brush, for example, and means 23 herein exemplified as a plurality of high potential carrying charging wires, are old in the art and well-known.
Normally, a continually rotating belt means 11 would result in a jittery or irradically moving visual image to be presented on a light receptive means. It is therefore necessary to compensate for the movement of the belt means by synchronizing the movement of the belt means 1l with the movement or rotation of light transmitting means 16. Such synchronizing will achieve stationary reproduction of the visual images irradiated upon the belt means Il upon the presentation of the images at the light receptive means or `screen 20. In the present embodiment the synchronization is accomplished through use of a common motor drive 25, which rotates simultaneously the pulleys 14 carrying the endless belt means 1i, as well as a cam 27 for the movement of the light transmitting means i6. The motor drive 25 is operated under command of the same sync signals as is the tube It); therefore, cathode ray tube displays, belt movement t and light transmitting means are all under control of a common sync signal. Of course, the control is unidirectional; there is no feedback exemplified in this system.
In addition, of course, if it is desired, the light means if; may also be shuttered by utilization of a shutter cam arrangement 30 also driven by the motor 25. The synchronized system described is exemplary, and is shown in a very simplified form so as to reduce to a minimum the parts or portions of this system which are unreliable or have lost motion.
Examining FIGURE l in greater detail, the tube 10, for example, may be of the type shown in my U.S. Patent No. 2,735,956 or 2,761,988. Each of these tubes may be driven by the exemplary circuitry herein collectively shown as tube circuits 32 in accordance with the detailed teachings of McNaney U.S. Patents Nos. 2,736,770 and 2,850,723. Of course it should be understood that, While a character display or shaped beam tube is actually shown `as means It), any type of cathode ray tube presenting information such as radar or Lissajous type information coulde be utilized, provided the information desired to be recorded is so presented.
It is customary in computer control equipment to provide the sync signal aforestated to provide to all the rest of the equipment a timing signal, thereby synchronizing operation of the constituent parts. FIGURE 1 exemplifies the Presentation of such a signal to a motor and tube control circuitry 35. The output of circuitry 35, namely, a sync signal, is furnished to the tube control circuitry 32, and the motor drive circuitry 37. For specific embodiments and constructions of exemplary ademas motor and tube control circuitry and motor drive circuitry, reference may be had to McNaney U.S. Patent No. 2,736,770. As exemplified in the embodiment of FIGURE 1, it should be understood that there is no return feedback or servo-loop operation of the synchronizing system, but the system only operates under the control of the sync signal to provide the necessary timing for each of the components. The present invention, however', should not be limited solely to a unidirectional sync signal control, as those skilled in the art could easily use a more complex servo system with correction signals from the various components being fed back to the signal originating components, the difierences compared, and corrections interjected into the system to maintain synchronized operation. Such a more complex system is not herein shown.
As the characters are then presented on the screen 39 of the tube 10, in light and shadow representation, lens i2 may be used to collimate the light images from screen 39 for presentation onto an image reliecting tive surface 42S disposed on, or carried upon, the endless belt means 11. For details as to the method of operation of the photoconductors upon receipt of light excitation and recordation thereupon as electrostatic latent images, reference may be had to McNaney US. Patent No. 2,736,770. If photoconductive surface 45 is used, a transparent or a non-transparent conductor may serve as the basic portion of the endless belt means 11. The conductor may be used to carry away the charges dissipated as a result of illumination of desired areas of' the photoconductor. The latent images may be developed, as is shown in FIGURE 1, at the subsequent step along the rotation of the belt means l1, by electrostatically attractable particle means 15. Means could also be a means for developing the latent images and rendering them visible as is taught in Mayer U.S. Patent No. 2,877,133, assigned to the common assignee hereof, and 2,890,174, 2,891,911 and 2,878,120. All these patents teach the art in utilizing electrostatically attractable particles suspended in liquids as means for development of latent images.
As the visible image is disposed so as to communicate with the light illumination under the influence of the light means 18, the visual image may be reflected by the radiation of light means 18 thereupon, `from the photoconductive material (which acts as a light reflector) to the surface of a movable mirror 48. Mirror 48 is included and a part of the light transmitting means 16. Mirror 48, in its predetermined movement and positioning, redirects the visual images therefrom to a lens means Sil'. Lens Sil images the visual image onto the light receptive means 20. While the light receptive means Ztl is herein exemplified as a screen 52, it should `be understood as previously stated that any means of recording light information such as photoconductors, light responsive photographic paper, beaded reflective screens and the like, may all be utilized to provide an instantaneous or a permanent record of the visual images presented thereon. While the light means 18 may continuously illuminate the area on the belt means 11 carrying the visual images, if it is desired to use a frame-at-a-time projection, for example, the light 18 may be shuttered by a shutter means 3i). Shutter 55 may interrupt the presentation of light to the` belt means 11 as desired, and may be synchronized to belt means and light transmitting means by having its shaft mechanically linked to the common drive shaft of motor Z5.
To effect back and forth motion or oscillatory movement of mirror 48, there is used a cam 27 driven by the motor 25. A cam follower or connecting rod 57 rides along the cammed surfaces of the cam 27, and, being pins 7@ of the electron image information tube 68.
Q connected with a bar lever and crank arrangement 59 wherein up and down movement of the bar 59 causes a rotation of the crank carrying the mirror, and causes desired oscillatory movement of the mirror 48. Such bar lever and crank movement is well-known in the art, and is therefore merely diagrammatically shown herein. The end of the bar 59 and mirror 481 may be resiliently mounted with respect to a fixed point 60 by, for example, a spring 61. Therefore, upward movement of the connecting rod 57 exerts a pressure against the bar 59 to cause rotary motion by the crank carrying the mirror 48, thereby moving the mirror in synchronism with the rotation of the belt means 11.
To avoid blurring of images recorded on the belt means 11, it may be necessary to compensate for the movement of the belt means upon the presentation of radar information, for example, on the screen 39 of tube 1d, by movement of the information in synchronism with the movement of the belt means 11. This may be accomplished by an image reflecting means supported in the path of light rays from the tube 10 between the lens l2 and the endless belt means 11. The image reflecting means 115 may consist of a mirror 116, which is rotatable about a fixed point 117, by a bar 118 and a connecting rod 119, similar to that which is used in combination with the light transmitting means 16. To effect a back and forth motion or oscillatory movement of mirror 116, there is a cam 114 driven by the motor 25. The cam follower and connecting rod 119 ride along the cammed surfaces of the cam 114, and are connected with a bar lever and crank arrangement 11S, wherein up and down movements of the bar 118 cause corresponding movements of the mirror 116. The end of the bar lll and mirror 116 may be resiliently mounted with respect to a fixed point 117 by, for example, a spring 113. Therefore, upward movement of the connecting rod 119 exerts a pressure against the bar 118 to cause motion by the crank carrying the mirror 116, thereby moving the mirror in synchronism with the rotation of the belt means 1l1. Images from the screen 39 of tube 1@ may be made to move at the same rate of travel as the surface of the belt means 11. The mirror 116 therefore permits images to be recorded on the belt means as stationary latent images.
The basic principles of stopping the image as displayed on a tube 1li through utilization of the moving mirror, rotating prism or multisided mirror, are shown in McNaney U.S. Patent No. 2,898,176.
FIGURE 2 shows a further embodiment of the invention wherein the predetermined intelligible images are presented by a means 65. Means 65 may, if desired, be an electrically actuatable array of pins capable of transmitting electrical energy therethrough in response to a program presented to said pins, presenting electron images to the belt means 11, or, as herein exemplified, it may -be a cathode ray tube having such pins imbedded in its screen 68 capable of presenting electron images thereon, for example, from television receiving circuitry or another source of control signals 69. Tube 65 and its circuitry are not shown in detail, as circuitry representative of the type that may be used is clearly set forth in McNaney US. Patent No. 2,777,745, in FGURES 1 and 7 thereof. Therefore, for at least certain types of tube operation and construction, reference may be had to US. Patent No. 2,777,745. While a photoeonductive type surface could be used to record the information presented in electron form, a further type of belt means 11 could be used, and is exemplified in FIF- URE 2, wherein the belt 72` is a transparent belt of highly resistive material. The resistive material is capable of holding electron charges thereupon as latent images. Belt 72 is disposed adjacent pins '7%l recording thereon as latent images by direct or adjacent influence of the electrons at It also should be understood that similar pins 70 may be supported adjacent belt 72 and energized directly through anchoa/i circuit means in response to raster scan type of input signal information. The belt 72 may be made of a substance sold under the trademark Mylan Belt 72 therefore is highly resistive material capable of retaining the latent electrostatic charges thereon, and is also transparent to light irradiation therethrough. Therefore, the irradiating means or light means 13 may be disposed Within or inside the rotating belt means Il irradiating or projecting light from the light means through the belt 72. The visual image is thereby shadowed or illuminated, projecting it onto the surface of mirror 43 of the light transmitting means lr6 for retransmission onto the light receptive means Ztl as a stationary image. While light means 18 may directly illuminate or irradiate the visual images on the belt means lll, it .may do so indirectly through the utilization of an additional reflective means' or the mirror 75. Light may be collimated thereonto by a lens 7?. Here again, if it is desired to interrupt the light, the shutter means 30 may be synchronized with rotating belt means ll and the light transmitting means i6 through common motor drive 25.
FIGURE 3 shows a partial system which may in its remainder be made in 'accord with the rest of FIGURE l or FIGURE 2. The embodiment of FIGURE 3 shows an image 8S being photographed through an aperture S2 of a light excluding housing 34, which housing is positioned in light transmitting and retaining relation to the belt means lil. A rotating shutter 86 also driven by motor means 25 is'thereby synchronized with the movement of the belt means l-l. A lens system 9d transmits the light gathered through the aperture 82 and projects the same onto a prism 92. While the prism 92 is shown as foursided, this is exemplary only, and of course, a three-sided prism or a plurality of sides of prism may be used, as long as they are properly oriented with respect to the rotation under the influence of the motive means 25 to effect movement of the reproduced image 94 of the photographed image 30, so as to move the image 94 at the same rate of travel as the surface of the belt means lll. Prism 92 therefore permits the photographed image to be recorded on the belt means Il as a stationary latent image. The remainder of the system, of course, can be the same as that exemplified by FIGURES l and 2.
FIGURE 4 shows a further embodiment of the invention encased preferably in a console housing diagrammatically shown herein. Shaped beam tube i@ is utilized to present information as is shown in FIGURE l. Many of the components of the system of FIGURE 4 are identical to FIGURE l or 2. An additional frame deflection circuitry lo@ may be provided to cause a frame-at-a-tirne deflection of the presented information. The frame deilection circuitry and the character selection circuitry, eX- emplied generally as 32 may of course be identical to that shown in McNaney U.S. Patent No. 2,850,723. The frame deflection circuitry would provide an additional function of causing a frame of information to be moved from one part of the screen 3,2 t-o another in synchronisrn with'belt l@ movements. Another major change in the embodiment of FEGURE 4 is use of multisided mirrors or prisms i432. Light transmitting means 16 using mirrors or prisms IGZ would rot-ate constantly. Further, the ernbodiment of FIGURE 4 is particularly set forth in -a preferred Way to effect frame-at-a-time presentation. Light means 13 continuously illuminates an area on the belt means lll, Where the visual images to be displayed are recorded. To prevent overlap in illuminations and projection of subsequent frames of visual images, a light limiter means 31.04 is used. rl`he light limiter means lil-t is disposed adjacent the area on the belt means lll, at which the visual images are irradiated by the light means 18. Limiter means 194 limits the area of irradiation on the belt means ll to provide irradiation only of one frame at a time. Thus, only one frame at a time is transmitted to the continuously rotating prism or multisided mirror EQ2. The light transmitting means lr6 is synchronized with the rotation of belt means 1l, both being driven by a common motor 25 whose control is synchronized with the display of tube lo. Therefore, aV stationary image of the recorded visual images of belt means lil is shown, frame-at-a-time, upon the light receptive means 20. The light from a surface of the light transmitting means d2 is collimated by lens 5ft for projection onto the light receptive means Ztl. The light receptive means Ztl is herein exemplified as a ground glass screen lilo. Screen fit-6 may be viewed from the opposite side thereof by a viewer.
The light limiter means E64, shown in greater detail in FIGURE 5., is so constructed in relation tothe position of the mirror surface M2 as to permit the illumination by the light lit of only one frame at a time; namely, frame lli), on the belt means Il. A successive frame lf2 will be denied irradiation until full presentation of the next of the surfaces of the mirror `ltlZ is made to the belt means Il. By that time, the frame Il@ -Will have advanced to a position under light limiter means m4 and be denied illumination. Frame Il? will then have advanced to the illuminated position Within the area permitted by the light limiter means lila on the belt means il. The illuminated iframe, of course, will be transmitted from the light transmitting means IM through the lens means Sil to subsequent presentation on the light receptive means Ztl.
Using the teachings of Rosenthal, U.S. Patent No. 2,844,648, and the limiter means MP4, continuous frameat-a-time presentation can be lmade in a manner which eliminates lag between the successively displayed frames, and thereby, presentation Hicken The particular embodiments of the invention illustrated and described herein are illustrative only, and the invention includes such other modifications and equivalents as may readily appear to those skilled in the art, within the scope of the appended claims.
I claim:
l. The combination comprising: a stationary cathode ray tube having a faceplate; means for producing a cornplete visual display on said faceplate; a Xerographic recording system, said system comprising a continuously moving endless belt clad with a photoconductive material; means for simultaneously recording all elements of said complete visual display upon said belt in the form of a latent electrostatic image which is stationary with respect to said continuously moving belt, said means comprising movable optical unit means for causing said complete display to be projected onto said continuously moving belt so that the image projected upon said belt moves at the same speed as said belt thereby providing no relative movement between said belt and said projected image; means for developing said latent electrostatic image upon said belt by xerographic methods to produce a visible image corresponding to said complete display; and means for projecting said developed visible image from said moving belt onto a stationary viewing screen, said means comprising second movable optical unit means for causing said complete visible image to appear as a stationary projected image upon said screen, whereby the complete display that appeared on `said faceplate of said tube is reproduced in its entirety on said screen.
2. The combination comprising: a stationary cathode ray tube having a faceplate; means for producing a complete frarne of information on said faceplate; a Xcrographic recording system, said system comprising a continuously moving endless belt clad with a photoconductive material; means for simultaneously recording said complete frame of information from said faceplate onto said continuously moving belt in the form of a latent electrostatic image which is stationary with respect to said continuously moving belt, said means comprising movable mirror means for causing -said complete frame to be projected as a stationary image upon said moving belt; means for developing said latent electrostatic image upon said belt by xerographic methods to produce a visible image corresponding to said complete frame; and means for projecting said developed visible image from said moving belt onto a stationary viewing screen, said means comprising second movable mirror means for causing said complete visible image to `appear las a stationary image upon said screen, whereby the complete frame of information that appeared on said faceplate of said tube is reproduced in its entirety on said screen.
3. The combination comprising: a stationary cathode ray tube having a faceplate; means for producing successive displays on said faceplate; a xerographic recording system, said system comprising a continuously moving endless lbelt clad with a photoconductive material; means for projecting said displays in a frame-by-frame manner from said faceplate onto said belt as stationary images, said means comprising a pivota'ble mirror whose movement is synchronized with the movement `of said belt `for causing said successive frames that for-m said displays to be projected as stationary images upon successive areas of said moving `belt; means for developing said exposed areas of said belt by xerographic methods to produce successive visible images corresponding to said successive displays; and means for projecting said visible images from said belt onto a stationary viewing screen, said means comprising second pivotable mirror whose movement is synchronized with the movement of said belt 4for causing said visible images to appear on said stationary screen as successive stationary images.
References Cited in the file of this patent UNITED STATES PATENTS 1,856,541 Decaux May 3, 1932 2,030,654 Rassweiler et a1, Feb. 11, 1936 2,305,838 Beer Dec. 22, 1942 2,690,394 Carlson Sept. 28, 1954 2,770,163 Mattke Nov. 13, 1956 2,859,673 Hix et al NOV. 11, 1958 2,959,095 Magnusson Nov. 8, 1960 2,972,741 Hammond Feb. 2l, 1961 FOREIGN PATENTS 723,534 Great Britain Feb. 9, 1955 817,447 France Sept. 2, 1937
Priority Applications (1)
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US838973A US3051044A (en) | 1959-09-09 | 1959-09-09 | Recording and projection system |
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US838973A US3051044A (en) | 1959-09-09 | 1959-09-09 | Recording and projection system |
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