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Publication numberUS3090687 A
Publication typeGrant
Publication dateMay 21, 1963
Filing dateNov 6, 1957
Priority dateNov 6, 1957
Also published asDE1086556B
Publication numberUS 3090687 A, US 3090687A, US-A-3090687, US3090687 A, US3090687A
InventorsElliot Berman
Original AssigneeNcr Co
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Photo-chemical printing
US 3090687 A
Images(6)
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Description  (OCR text may contain errors)

May 21, 1963 E. BERMAN 3,090,687

PHOTO-CHEMICAL PRINTING Filed NOV. 6, 1957 6 Sheets-Sheet 1 INVENTOR ELLIOT BERMAN HIS ATTORNEYS May 21, 1963 E. BERMAN PHOTO-CHEMICAL PRINTING 6 Sheets-Sheet 2 Filed NOV. 6, 1957 INVENTOR ELLIOT BERMAN BY fim I I I S ATTORNEYS May 21, 1963 E. BERMAN PHOTO-CHEMICAL PRINTING 6 Sheets-Sheet 3 Filed Nov. 6, 1957 FIG. 3

INVENTOR ELLIOT BERMAN BY M Q HIS ATTORNEYS May 21, 1963 E. BERMAN 3,090,687

PHOTO-CHEMICAL PRINTING Filed Nov. 6, 1957 6 Sheets-Sheet 4 FIG. 4

FIG. 5

INVENTOR ELLIOT BERMAN HIS ATTORNEYS M y 1963 E. BERMAN 3,090,687

PHOTO-CHEMICAL PRINTING Filed Nov. 6, 1957 6 Sheets-Sheet 5 lO(9'-2'-METHYLXANTHYLIDENE)-ANTHRONE 3- METHYL-lO-(9'- XANTHYLIDENE)- ANTHRONE B-CHLORO-IO-(9-XANTHYL|DENE)-ANTHRONE FG. 9 INVENTOR ELLIOT BERMAN mQzM/l fl lO-(9'-XANTHYLIDENE)- ANTHRONE HlS ATTORNEYS May 21, 1963 Filed Nov.

FIG.IO

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E. BERMAN 3,090,687

PHOTO-CHEMICAL PRINTING 6 Sheets-Sheet 6 3,3 -TRIMETHYLINDOLINO-6 NlTRO- 8 METHOXYBENZOPYRYLOSPIRAN l, 3,3-TRlMETHYLlNDOLlNO-6 BROMO- 8 NITROBENZOPYRYLOSPIRAN INVENTOR ELLIOT BERMAN HIS ATTORNEYS United States Patent Oflice 3,099,687 Patented May 21, 1963 3,090,687 PHOTO-CHEMICAL PRINTING Elliot Bel-man, Dayton, Ohio, assignor to The National Cash Register Company, Dayton, Ohio, a corporation of Maryland Filed Nov. 6, 1957, Ser. No. 694,802 2 Claims. (Cl. 96-48) This invention relates to a photo-chemical printing method and means and more particularly pertains to record material which is wet with a liquid solution of a chemical compound or compounds, while being printed, said compounds being substantially colorless and inert to light when in solid form, but which, when in solution in a liquid become responsive to light of predetermined wave lengths and change in light-absorbing characteristics when such light is projected onto the record material. The solvent is a volatile liquid vehicle. After the color forms, that is to say, after the light absorption characteristics of the compound or compounds have changed through the application of light to the record material at the printing station, in-selected patterns, the solvent is al lowed to evaporate to render the compound or compounds inert as to light subsequently applied to both the colored and uncolored form.

The term printing is used in the broad sense of making visible marks, and includes all means for controlling the application of light to the record material.

Several modes of wetting the record material with the solution before it arrives at the printing station are contemplated; one is to have the light-responsive compound or compounds in particulate solid form coated on the record material and applying the volatile solvent to the coating on that part of the web nearing the printing station, said solvent evaporating after the color has formed. Another proposed method of printing would be to provide the record material which is coated with the particulate 1ight-sensitive compound with microscopic pressure-rupturable capsules containing the volatile liquid solvent, which capsules are crushed just before the record material reaches the printing station, freeing the solvent which dissolves the compound or compounds.

Still another method for preparing the record material by wetting is to apply a liquid solution of the compound, or compounds, to the record material just before it reaches the printing station, the solvent, of course, being volatile. The solvent, or solvents, containing the dissolved colorforming compound may be applied by porous rubber type with only the desired pattern wetting the record material.

The printing method and means which will be described :fully in the specification to follow will be referred to as photo-chromic printing, and its chief characteristic as distinguished from ordinary photography methods is that the novel record'material, before being wet as described,

'is as inert to light. The print is made instantaneously by light, as far as human perception is involved, and is fixed 'one being a mask with the images to be printed cut out in stencil form so that the light may be projected through the stencil cut-outs onto the wet-sensitized record material. Another method is to subject the wet-sensitized record material to the beam of light emitted by an oscillograph type of galvanometer so as to leave a trace on the paper of the data issuing from the galvanometer. A photographic transparent negative may be used as a light control means. Another way of projecting light onto the paper is to pass the paper in front of a screen of a cathode ray tube where the fluorescent trace of the electron beam will be recorded on the record material as it passes by.

The invention resides not only in the method of printing but in the record material itself, which may be made lightsensitive only just before printing as has been explained in a broad sense, and which will be explained further on in the specification more fully.

With these and other objects in view, the invention will be explained in the specification to follow with reference to the drawings.

Of the drawings:

FIG. 1 representsan apparatus for the utilization of stencils in forming images on the record material, the supply of record material itself having a solid particulate photo-chromic compound, or compounds, thereon in juxtaposition with microscopic pressure-rupturable capsules containing the volatile solvent liquid, which capsules are broken just prior to bringing the paper to the printing statio to release the solvent so the compound, or compounds, will become dissolved and thus light sensitive.

FIG. '2 shows apparatus for projecting light through stencils onto the record material which has been wetted by a bath of the volatile solvent for the photo-chromic compound just before coming to the printing station.

FIG. 3 shows apparatus used in conjunction with the stencil selector for printing on the record material, the record material being sprayed and wetted by the volatile liquid solvent just before coming to the printing station.

FIG. 4 shows a method for making a trace on the record material by means of a moving beam of light controlled by an oscillograph of the DArsonval type.

FIG. 5 shows the novel record material being passed in front of the screen of a cathode ray tube after being made sensitive to light.

FIGS. 6, 7, 8 and 9 are xanthylidene-anthrone or derivatives which are of the photo-chromic type useful in the invention when in solution.

FIGS. 10, 11, 12 and 13 are indolino-benzopyrylospiran derivative compounds which are also useful in practicing the invention when in solution.

General Description The main, but not exclusive, feature of the invention is to provide record material which is sensitized to light just before coming to a printing station where patterns of light are projected thereon, to produce said patterns in color, said record material being desensitized to light after passing the printing station to fix the print of said image.

Starting with FIG. 1, which shows one form of the invention, there is provided a supply roll 20 of record material which is supported on an ordinary support shaft 21 and is transportable past a printing station indicated by the arrow 22, to be taken up on a take-up roll 23, journaled on another ordinary support shaft 24. At least the surface of the record material on which the images are to be formed is supplied with minute particles of one or more of the compounds shown in FIGS. 6 to 13, inclusive, of the drawings. Although such compounds are represen tative, there are many others of similar type. The normal color of the compounds in FIGS. 6 to 9, inclusive, is a light yellow color, but turns to red when exposed to light having wave lengths less than 4000 angstrom units, and this photo-chromic reaction only occurs when the compounds are in liquid solution. After changing color through the exposure to light and drying of the images, the compound, or compounds, whether colored or not, are no longer sensitive to light of said wave lengths.

Likewise, the compounds of FIGS. 10 to 13, inclusive,

have a similar reaction to light of the wave lengths specified while in solution. These compounds of FIGS. to 13, inclusive, are normally substantially colorless, turn to a deep blue color in solution when exposed to light of the mentioned wave lengths, and when in the colored form and dried by evaporation of the solvent, they appear black to the eye. When said compounds are dry, either in colored or uncolored form, they are inert to light.

Again referring to FIG. 1, the particular form of invention provides the surface of the web of supply roll 20, which is to be exposed to light, with fine particles of the selected one or more of the compounds which are reactive to light, interspersed or having in juxtaposition thereto microscopic pressure-rupturable capsules containing a liquid voltatile solvent for the light-reactive compounds. Subsequent to printing, the volatile solvent quickly evaporates to leave the light-sensitive compound, or compounds, in their colored or uncolored state as a solid in which they are inert to further change by the light. These capsules are denoted by the speckles appearing in region of the record material of FIG. 1. Just before passing the printing station 22, the record material is subjected to the action of pressure rollers 26 and 27 which crush the capsules to release the solvent liquid which dissolves the particles of the light-sensitive compound, or compounds, so that when the record material comes to the printing station 22, the compound, or compounds, in solution are sensitive to the light which is directed thereon by lamp 28 through a selectively operable stencil screen 29, which screen is adjustable to bring the selected character to the printing station. After the exposure to light which may be brought about by the operation of light switch 30, the record material is passed in the direction of the arrow 31 where, in passage before being taken up on the take-up roll 23, the compound, or compounds, are dried by reason of the highly evaporable nature of the solvent. Petroleum-obtained solvents which may be used with the compounds of FIGS. 6 to 13, inclusive, and which are of the readily evaporable type, include ligroin, diethylbenzene, xylene, toluene, cyclohexane, petroleum ether and gasoline. Dibutyl ether also is a satisfactory solvent.

The distance between the printing station 22, and the take-up roll 23 can be adjusted so as to allow ample time for the solvent to evaporate. It will be understood that not only is the printed image inert to light by becoming dry, but the background of the dried record material not exposed to light, by becoming dried, is also inert to light. The microscopic capsules may be made according to the teachings of US. Patent No. 2,800,457, which was issued July 23, 1957, on an application of Barrett K. Green and Lowell Schleicher. A sample step-by-step process taken from that patent, modified to the use of diethylbenzene, includes the emulsification of 80 grams of the diethylben zene in a solution of 20 grams of gum arabic in 160 grams of water. A sol of 20 grams of pigskin gelatin, having an iso-electric point of pH 8, and 160 grams of water is made and mixed with the emulsion. The pH of the mixture of the emulsion and sol is adjusted to 6.5 and mixed with 500 grams of water, and then the pH is adjusted to 4.5. At this point, the gum arabic-gelatin complex, which forms, has deposited around the internal phase droplets of diethylbenzene and is still in liquid form, as the ingredients up to this point are kept at a temperature of 50 centigrade. At this point, while the ingredients are still at 50 centigrade, 3.8 grams of a solution of 37 percent formaldehyde in water is added as a hardening agent, and the temperature is lowered with agitation of the mixture until a temperature of 10 centigrade is reached, to gel the colloid-encased diethylbenzene droplets. After about thirty minutes of agitation at this lowered temperature, the pH is adjusted to 9, with a solution of 20 percent sodium hydroxide in water. The foregoing process produces, by a phenomenon known as coacer-vation, a profusion of microscopic pressure-rupturable oil-containing capsules suspended in a colloid-poor residual aqueous medium. The suspension of capsules may be coated directly onto the web to be printed and dried, and this coating may be done either before the photo-chromic compound is applied, at the same time, or after.

As has been said, the record material, after having passed through rollers 26 and 27, the photo-chromic compound thereon is in solution, and consequently is light-sensitive at the printing station 22. The volatility of the solvent may determine the relative distances of the supply roll and take-up roll from the printing station.

Referring to FIG. 2, which is another form of the invention, the supply roll 32, which may be of plain paper, is passed through the bath 33, consisting of a solution of the photo-chrornic compound, or compounds, and a readily volatile solvent, and the paper is wet by the solution passed by the printing station, indicated by the arrow 34, where it is subjected to light from the lamp 35 upon closing of the switch 36. The print so made is dried, as in the first example, by evaporation of the solvent on its travel towards the take-up roll 38. If it be desired to wet only one side of the paper, the record material from the supply roll 39 (FIG. 3) is passed under a spray head 40 which contains a solution of the photochromic compound, or compounds, in the selected evaporable solvent, thus sensitizing, by wetting, the one surface of the record material which is to be printed. As before, light is directed through stencil 41 at the printing station 42 to print the image upon the closing of the switch 43, the drying taking place before the printed material is wound on the take-up roll 44 in the manner described in connection with the first example.

It should be understood that the principles outlined in Examples 1, 2 and 3 are not exhaustive as to the method of wetting record material with a solvent for the photo-chromic compound, or compounds, before being printed, nor is the stencil type of printing control vital to these examples as beams of light may be traced across the wet-sensitized paper at the printing station as shown in Example 4 next to be described.

In FIG. 4, a construction is shown for printing whereby the proper wave lengths of light are projected from a lamp 50 which directs a beam 51, through a lens system 53, onto a mirror 52 of an oscillograph of the DArsonval type, which light is reflected through lens system 53 onto record material 54 which is moved past a printing station in the direction of the arrow 55, the wet-sensitization of said record material 54 being caused by the rupture of solvent-containing capsules by pressure rollers 56 and 57 in the manner described in connection with the example of FIG. 1.

-In another form of the invention shown in FIG. 5, the record material 60 is passed in the direction of the arrow, after being wet-sensitized through pressure rollers 61 and 62, across the fluorescent screen 63 of a cathode ray tube, there to be subjected to the trace of the electron beam to cause the image traced thereby to be printed on the record material 60; thereafter the printed strip may be wound on take-up roll 64 after having dried on its travel from the printing station to the take-up roll.

Neither the particular specified solvents, the methods of wetting, or the means for projecting the light in the desired image onto the wet-sensitized record material, is to be deemed [to limit the invention as the invention is directed to the presenting for a limited time at a printing station, a record material web wet-sensitized with a solution of the photo-chromic compound, or compounds, which thereby is in condition for being switched to the colored form upon exposure to the aforementioned wave lengths of light. By the term light, as used in this specification, it is not intended to limit the electromagnetic radiation to light visible by the human eye, as ultraviolet light and even X-rays are useful to cause the color changes to take place in these compounds. The broad term of the word light as specified herein is justified by the definition of light as set forth in the publication, The International Dictionary of Physics and Electronics,

published in 1956 by D. Van Nostrand Company, Inc., of Princeton, New Jersey, Toronto, Canada, and London, England.

'In addition to the methods described of controlling the light to produce patterns on the record material, as has been said, the color-forming compound on the record material may be wet only in desired areas by application of the solvent, or solvents, containing the color-forming compound, in desired areas by porous type or equivalent.

What is claimed is:

1. Record material including a web coated with solid particles of a chemical compound, which compound when dissolved in a liquid, changes to a distinctive hue upon being exposed to light having wave lengths of less than 4,000 A., said compound being inert to such color change by exposure to light when in the solid form; and said compound particles being in juxtaposition on the web to liquid solvent-containing pressure-rupturable capsules, so that if the capsules are ruptured, the adjacent compound particles will be dissolved and thus will become sensitive to light.

2. A process for printing including the steps of (a) providing a record sheet base member coated with solid particles of a chemical compound interspersed .with pressure-rupturable liquid-solvent-containing capsules, the compound assuming a distinctive color hue when irradiated with ultra-violet light while in liquid solution, said solvent being volatile and a solvent for the particles;

(b) rupturing the capsules to release the solvent and thereby dissolve the particles; and (0) before the solvent evaporates irradiating the dissolved coating of particles with a pattern of ultraviolet light to depict data in the distinctive color, the evaporation of the solvent leaving the compound fixed in the distinctively colored pattern, where colored, and fixed in the uncolored form where not irradiated with the ultra-violet light.

References Cited in the file of this patent UNITED STATES PATENTS 1,503,595 Mees Aug. 5, 1924 2082, 178 Ochwat June 1, 1937 2,214,365 Flynn et al Sept. 10, 1940 2,345,549 Christaldi et a1 Mar. 28, 1944 2,543,181 Land Feb. 27, 1951 2,676,887 Chalkley Apr. 27, 1954 2,736,056 Toulmin Feb. 28, 1956 2,800,457 Green et al July 23, 1957 2,819,662 Land Jan. 14, 1958 2,844,465 Chalkley July 22, 1958 2,864,753 Chalkley Dec. 16, 1958 2,877,167 Chalkley Mar. 10, 1959 2,877,168 Chalkley Mar. 10, 1959 2,877,169 Chalkley Mar. 10, 1959 FOREIGN PATENTS 200,714 Australia Dec. 14, 1955 814,449 France Mar. 15, 1937 OTHER REFERENCES Koelsch: Journal of the American Chemical Society, 1952, vol. 74, pp. 6288-6289.

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Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3212898 *Nov 21, 1962Oct 19, 1965American Cyanamid CoPhotosensitive compositions of matter comprising photochromic materials suspended in polyester binders
US3304180 *Mar 1, 1963Feb 14, 1967American Cyanamid CoGrafted paper and grafted cellophane compositions containing photochromic materials
US3314795 *Mar 1, 1963Apr 18, 1967American Cyanamid CoPhotochromic cellulosic paper, synthetic paper and regenerated cellulose
US3351948 *Jan 3, 1966Nov 7, 1967Honeywell IncLaser recorder using medium having encapsulated chemicals
US3355588 *Mar 26, 1964Nov 28, 1967Cie De Saint GohainProjection of negatives as positives by employing a phototropic screen and an auxiliary visible light source
US3379878 *Mar 9, 1966Apr 23, 1968Lumoprint Zindler KgThermographic reproduction apparatus with means to apply the radiation sensitive material just prior to exposure
US3454414 *Nov 2, 1964Jul 8, 1969Sperry Rand CorpPhotochromic material
US3642484 *Sep 11, 1969Feb 15, 1972Agfa Gevaert NvUnsaturated photochromic indolino-spiropyran monomers and polymers prepared therefrom
US4399209 *Nov 12, 1981Aug 16, 1983The Mead CorporationTransfer imaging system
US4416966 *Aug 25, 1982Nov 22, 1983The Mead CorporationCapsular imaging system comprising decolorizing agent
US4440846 *Nov 12, 1981Apr 3, 1984Mead CorporationPhotocopy sheet employing encapsulated radiation sensitive composition and imaging process
US4442429 *Sep 14, 1981Apr 10, 1984Oki Electric Industry Co., Ltd.Display apparatus utilizing a thermally color reversible display medium which has a hysteresis effect
US4482624 *Feb 15, 1983Nov 13, 1984The Mead CorporationPhotosensitive material employing encapsulated radiation sensitive composition and process for improving sensitivity by sequestering oxygen
US4508807 *Jul 11, 1983Apr 2, 1985Mead CorporationPhotosensitive material employing encapsulated radiation sensitive composition and a transparentizable image-receiving layer
US4535050 *Jul 18, 1983Aug 13, 1985The Mead CorporationPeeling development of photosensitive materials employing microencapsulated radiation sensitive compositions
US4562137 *Dec 30, 1982Dec 31, 1985The Mead CorporationRupturing capsules upon exposure to actinic radiation
US4791449 *May 30, 1986Dec 13, 1988Xerox CorporationSystem for prevention of unauthorized copying
US4822714 *Apr 26, 1985Apr 18, 1989The Mead CorporationTransfer imaging system
US4842976 *Jan 18, 1982Jun 27, 1989Mead Corp.Photosensitive composition encapsulated in pressure rupturable capsules
US4903991 *Jul 18, 1983Feb 27, 1990The Mead CorporationDocument security system
US5786838 *Apr 1, 1996Jul 28, 1998Watlow Electric Manufacturing CompanySelf-erasing thermochromic writing board and system
US7381506 *Sep 8, 2005Jun 3, 2008Xerox CorporationSubstrate coated with a mixture of a solvent and an imaging layer containing a photochromic material exhibiting a reversible homogeneous-heterogeneous transition between a dispersed colorless state and a colored state that separates out of the solvent in the form of opaque, polydisperse crystals.
USRE34454 *Nov 28, 1990Nov 23, 1993Brother Kogyo Kabushiki KaishaCopying apparatus
Classifications
U.S. Classification430/138, 355/133, 359/243, 264/4.3, 264/4.4, 347/264, 428/402.2, 250/580
International ClassificationB01J13/02, G01D15/14, G03C1/685, G03C1/73, G03C1/00, G03C5/08, G03C5/56
Cooperative ClassificationG01D15/14, G03C5/56, G03C1/002, B01J13/025, G03C5/08, G03C1/73, G03C1/685
European ClassificationG03C5/08, G01D15/14, G03C5/56, B01J13/02M, G03C1/685, G03C1/00M, G03C1/73