US3132584A - Planographic master-forming blank and method of manufacture thereof - Google Patents

Planographic master-forming blank and method of manufacture thereof Download PDF

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US3132584A
US3132584A US445615A US44561554A US3132584A US 3132584 A US3132584 A US 3132584A US 445615 A US445615 A US 445615A US 44561554 A US44561554 A US 44561554A US 3132584 A US3132584 A US 3132584A
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coating
blank
hydrophilic
ink
lithographie
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Harold R Dalton
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Timefax Corp
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Timefax Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41NPRINTING PLATES OR FOILS; MATERIALS FOR SURFACES USED IN PRINTING MACHINES FOR PRINTING, INKING, DAMPING, OR THE LIKE; PREPARING SUCH SURFACES FOR USE AND CONSERVING THEM
    • B41N3/00Preparing for use and conserving printing surfaces
    • B41N3/03Chemical or electrical pretreatment
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41NPRINTING PLATES OR FOILS; MATERIALS FOR SURFACES USED IN PRINTING MACHINES FOR PRINTING, INKING, DAMPING, OR THE LIKE; PREPARING SUCH SURFACES FOR USE AND CONSERVING THEM
    • B41N1/00Printing plates or foils; Materials therefor
    • B41N1/12Printing plates or foils; Materials therefor non-metallic other than stone, e.g. printing plates or foils comprising inorganic materials in an organic matrix
    • B41N1/14Lithographic printing foils

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  • This invention relates to planographic or offset printing blanks and methods of manufacture thereof. in the nature of an improvement on the blank and on the planographic master plate disclosed in application Serial No. 248,509, filed September 27, 1951.
  • a plarographic master printing blank comprised, in general, of a backing member whose surface has been treated to render it hydrophilc and water-insoluble while at the same time being ink-repellent for the inks usually employed in planographic or offset printing, and the like.
  • a layer or yfilm of a conductive plastic for example polyvinyl resin
  • the plastic film alone is perforated at the extremely minute regions directly beneath the point of the stylus, and as a result ⁇ there is transferred to the hydrophilic-surfaced backing member, a deposited record which is both water-repellent and ink-receptive.
  • the said plastic film is applied in such a thickness, for example of the order of about 11/2 to 3 mils, and is of sufcient strength and pliability so that it can be readily peeled from the backing member. This left a master plate which could be used in any well known planographic or offset printing machine.
  • one of the principal objects of this invention is to provide a novel planographic or offset blank which can be converted into a printing master by stylusapplied electric discharges, and this master can then be used directly as such in any well known planographic or offset printing machine without the necessity of stripping a film and without the necessity of resorting to fixing or developing procedures, as -are necessary with conventional photographic offset printing blanks.
  • Another principal object is to provide an improved planographic master printing form of paper or similar fibrous material.
  • a further object is to provide a novel method of making planographic or offset master printing forms.
  • FIG. 1 is a perspective view of part of a planographc blank according to the invention. Merely for clarity, the thickness of the blank and its coatings is greatly increased in FIG. 1.
  • FIG. 2 is a cross sectional view, in magnified form, of part of the blank of FIG. 1.
  • FIG. 3 is a schematic showing of a system or organization of apparatus for producing the finished planographic master form in conformity with an original subject matter.
  • FIG. 4 is a cross sectional view, similar to FIG. 2, of a modification of the blank.
  • FIG. 5 is a magnified view of the blank of FIGS. 1 and 2, and wherein the perforations are produced by the system of FIG. 3.
  • the blank comprises a backing member of any suitable material to whose surface there is applied an electrically conducting layer 11.
  • This layer 11 in accordance with the preferred form of the invention consists of a film-forming resin wherein powdered electrically conductive carbon is incorporated and preferably uniformly dispersed throughout its thickness.
  • the sheet or layer 11 may be formed either in a single pass or in a plurality of successive passes, which, of course, when dried, form a single continuous film or sheet of electrically conductive material. If layer 11 is formed in a succession of passes, the succeeding passes may be of different electric conductivity.
  • the layer 11 may consist of two successive passes 11a and 11b.
  • the pass 11a may be formed from a mixture of a film-forming resin in liquid or semi liquid form throughout which is uniformly dispersed powdered electrically conductive carbon of predetermined amountV so as to impart to the pass 11a, when dried, a relatively high electric conductivity considered through its thickness.
  • the next pass 11b may also be formed of a liquid or semi liquid suspension of a film-forming resin containing electrically conductive powdered carbon but of a nature such that the pass 11b, when dried, has a considerably lower electric conductivity than pass 11a.
  • the pass 11a should have a conductivity which is the same or greater than the conductivity of pass 11b.
  • the pass 11a may be referred to as the base coat and the pass 11b may be referred to as the intermediate coat.
  • the coating 11 and for the coatings 11a, 11b reference may be had to U.S. patents Nos. 2,555,321 and 2,664,044. As pointed out in said application Serial No.
  • the plastic which forms the layer 11 may be any well known film-forming resin or plastic such for example as the following: vinyl ester polymers, or reaction products of polyvinyl alcohol and aldehydes, cellulose esters, ethers or the like; .e., any one of the well known film-forming resins or elastomers such as vinyl chloride polymers, vinylidene chloride polymers, vinyl chloride-vinyl acetate copolymers, polyvinyl butyral polymers, styrene polymers, cellulose nitrate, cellulose acetate, ethyl cellulose, etc.
  • vinyl ester polymers or reaction products of polyvinyl alcohol and aldehydes, cellulose esters, ethers or the like
  • any one of the well known film-forming resins or elastomers such as vinyl chloride polymers, vinylidene chloride polymers, vinyl chloride-vinyl acetate copolymers, polyvinyl butyral polymers, sty
  • the conductive plastic layer 11 has applied thereto by any well known process a top coating 12 of hydrophilic, Water insoluble but ink-repellent material.
  • the coating 12 may be formed from a mixture containing casein and a hardening agent such as formaldehyde, or carboxy methyl cellulose and a hardening agent such as an aluminum salt, etc. It may also include a whitish pigment, such as zinc sulfide, with a small amount of a preservative and a small amount of a plasticizer.
  • a wash coat formed for example of a dilute water solution of a cellulosic sizing agent, 'such as Cellosize or carboxy methyl cellulose, can be applied.
  • a cellulosic sizing agent such as Cellosize or carboxy methyl cellulose
  • the coating 12 has a much higher electrical resistance than the coating 11
  • the hydrophilic and ink-repellent coating 12 is of very high resistance, as compared with coating 11, the electric discharge from the stylus 13 results in a minute perforation of only the coating 12, which perforation is confined to the minute region directly beneath the point of the stylus, and no perforation whatever takes place in the backing 10.
  • the carbon containing layer 11 is exposed.
  • the coating 12 can be made of such thickness that in those regions acted upon by the electrically energized stylus 13, the ink from the inking surface of the planographic machine is readily taken up only by the exposed carbon in registry with the minute perforations in coating 12, as indicated by the numeral 14 in FIG. 5.
  • the ink in the final recorded blank, as inked by the usual inking roller of the planographic machine, the ink is substantially flush with or only slightly above the surface of coating 12, whereas when the carbon is deposited on a hydrophilic surface, as in said application Serial 248,509, the ink is received by a slight mound of carbon, although this mound has an extremely minute height above the hydrophilic surface.
  • FIG. 3 there is shown in schematic form an organization of apparatus for recording on the planographic blank, so as to convert it to a master ready for direct use in the press.
  • the system comprises a pair of rotatable drums 15, 16, which may be mounted on a common shaft 17 and driven from a suitable motor (not shown). If desired, these drums may be separately located and each driven by a respective motor and by suitable well known means the drums may be kept in rotational synchronism.
  • Arranged to be wrapped around the transmitting drum 15 is the sheet 18 containing the subject matter 19 to be recorded on the planographic blank, which latter blank is wrapped around the receiving drum 16 with the backing member 10 in contact with the metal surface of drum 16, and with the hydrophilic surface 12 exposed to the recording stylus 13.
  • the subject matter 19 on sheet 18 is scanned in successive elemental areas by any well known electro-optical translating system, represented schematically by the light source 20, lens 21, photo-electric cell 22 with its apertured masking housing 23.
  • the units 20 to 23 can be carried on a suitable lead screw arrangement whereby they are indexed as a unit along the length of the drum 12 in timed relation to the drum rotation.
  • the recording stylus 13 may also be carried on the same lead screw.
  • the scanning light beam 24 traces a scanning path on the sheet 18 in synchronism with the trace of the stylus 13 with respect to surface 12.
  • the cell 22 in the well known manner, produces electric signal voltages which are determined by the lights and shades of the subject matter on sheet 18. These electric signals may be applied to an amplitude modulator 25 which modulates a suitable carrier wave from the source 26. This amplified, modulated carrier wave is then received in the receiving amplifier 27, and by means of a suitable coupling circuit or transformer 28, the amplified signals are impressed on the stylus 13.
  • the edge of the blank may be provided with a grounded sheet-clamping device which makes contact with the conductive layer 11.
  • a suitable water-repellent ingredient such as a wax, may be mixed with the powdered carbon to increase the water repellency of the exposed carbon without materially affecting its ink receptivity.
  • the method of making a blank which is useful for recording electric facsimile signals and also for lithographic printing after such recording thereon comprises applying to a backing member a carboncontaining coating which contains electrically conductive powdered carbon and a film-forming binder and which is water-repellant and ink-receptive, and applying over said earbon-containing coating which includes a powdered pigment and a water insolubilizing ingredient to render it a lithographie coating perforatable in minute localized areas by stylus applied electric discharges, said lithographic coating including an ink-repellent ingredient, a hydrophilic binder, a water insolubilizing ingredient and a powdered pigment, the said lithographie coating being of a thinness sufficient to mask the background color of the carbon-containing coating.
  • a lithographie printing master which comprises applying to a water-resistant backing member a carbon-containing layer integrally bonded thereto, which layer includes electrically conductive powdered carbon and a film-forming binder and which is water-repellent and ink-receptive, applying over said carbon containing layer a lithographie coating which is perforatable in minute localized areas by stylus-applied electric discharges, said lithographie coating being hydrophilic, ink-repellent and water-insoluble and of a thinness sufficient to mask the background color of the carboncontaining coating, and perforating said lithographie coating by applying thereto electric discharges in signal-controlled localized areas.
  • a lithographie printing master comprising, in combination, a water-resistant backing member to which is permanently and integrally attached an electrically conductive layer containing electrically conductive powdered carbon and a film-forming binder and which layer is water-repellent and ink-receptive, and a lithographie coating of hydrophilic, ink-repellent and water-insoluble material on said conductive layer, said lithographie coating being of a thinness suicient to mask the background color of said carbon-containing layer, said lithographie coating having minute perforations corresponding to subject matter to be printed and thereby exposing the corresponding minute ink-receptive areas of said carbon-bearing layer, the unperforated areas of said lithographie coating retaining their hydrophilic ink-repellent and water-insoluble characteristics.
  • An electrosensitive recording blank comprising a backing, an electrically conductive ink-receptive coating on said backing which contains electrically conductive powdered carbon and a film-forming binder, and a lithographic coating on said conductive coating which lithographic coating is hydrophilic, ink-repellent and includes a water insolubilizing agent.
  • An electrically inscribable lithographie printing plate comprising a wet-strength paper base having an electrically conductive and oleophilic coating adhered thereto, said oleophilic coating containing electrically conductive carbon and a binder as the essential ingredients thereof, and, on the said oleophilic coating, an adherent, water insoluble, hydrophilic coating containing, as the essential ingredients thereof, a hydrophilic colloid, an insolubilizing agent for the said colloid and zinc sulfide as a pigment; the hydrophilic coating being removable by and the oleophilic coating not being removable during the inscribing of the lithographie printing plate by an electric current.
  • a lithographie printing blank comprising a flexible backing member having an exposed surface coating which contains a pigment filler in a hydrophilic binder to render it water receptive and which coating includes a water in- 11.
  • a blank for making aA printing master of the lithographic kind said blank comprising in combination a backing having an electrically conductive coating containing a film-forming resin and powdered carbon dispersed throughout the resin, which coating is normally waterrepellent but ink-receptive, and a hydrophilic lithographie coating containing a hydrophilic binder and an insolubilizing agent therefor together with a powdered pigment uniformly dispersed therein, said lithographie coating being of a thinness which masks the background color of said conductive coating and being of higher resistance than said conductive coating, rendering said lithographie coating removable in localized areas corresponding to localized electric discharge thereat to expose corresponding areas of said conductive coating which are waterrepellent and ink-receptive for lithographie printing, while the remaining unremove
  • An electrosensitive recording blank comprising a backing, an electrically conductive water-repellent but ink-receptive film-forming resin coating on said backing, said coating containing powdered carbon in a film-forming resin binder, and'a lithographie coating on said conductive coating which lithographie coating includes a filler and hydrophilic binder to make it water-receptive but is water insoluble by inclusion of a separate insolubilizing agent.
  • ing contains a water-repellent ingredient.
  • An electrically inscribable lithographie printing plate comprising a paper base having an electrically conductive and ink-receptive coating adhered thereto, saidv ink-receptive coating containing electrically conductive carbon and a binder as the essential ingredients thereof, and on the said ink-receptive coating, an adherent, water insoluble, hydrophilic coating, containing, as the essential ingredients thereof, a hydrophilic colloid, an insolubilizing agent for the said colloid, and a whitish pigment; the hydrophilic coating being removable by, and the inkreceptive coating not being removable during the inscribing of the lithographie printing plate by an electric current.

Description

May 12, 1954 H. R. DALToN 3,132,584
' PLANOGRPHIC MASTER-FORMING BLANK AND METHOD OF MANUFACTURE THEREOF Filed July 26, 1954 AMS: f2 7 [md/28 IN VEN TOR.
Hfs/w49 A?. DALTON BY by United States Patent O York Filed July 26, 1954, Ser. No. 445,615 16 Claims. (Cl. lol-149.2)
This invention relates to planographic or offset printing blanks and methods of manufacture thereof. in the nature of an improvement on the blank and on the planographic master plate disclosed in application Serial No. 248,509, filed September 27, 1951.
There is disclosed in said application a plarographic master printing blank comprised, in general, of a backing member whose surface has been treated to render it hydrophilc and water-insoluble while at the same time being ink-repellent for the inks usually employed in planographic or offset printing, and the like. Over that hydrophilic surface was strippably applied a layer or yfilm of a conductive plastic, for example polyvinyl resin,
which contains powdered carbon and a water-repellent ingredient such as a wax. When the blank is subjected to electric discharge from a pointed electrode, such as a signal-energized stylus, the plastic film alone is perforated at the extremely minute regions directly beneath the point of the stylus, and as a result `there is transferred to the hydrophilic-surfaced backing member, a deposited record which is both water-repellent and ink-receptive. The said plastic film is applied in such a thickness, for example of the order of about 11/2 to 3 mils, and is of sufcient strength and pliability so that it can be readily peeled from the backing member. This left a master plate which could be used in any well known planographic or offset printing machine.
While the blank of the said application has great utility, I have found that it is possible to make blanks without the necessity of employing a strippable film.
Accordingly, one of the principal objects of this invention is to provide a novel planographic or offset blank which can be converted into a printing master by stylusapplied electric discharges, and this master can then be used directly as such in any well known planographic or offset printing machine without the necessity of stripping a film and without the necessity of resorting to fixing or developing procedures, as -are necessary with conventional photographic offset printing blanks.
Another principal object is to provide an improved planographic master printing form of paper or similar fibrous material.
A further object is to provide a novel method of making planographic or offset master printing forms.
In the drawing:
FIG. 1 is a perspective view of part of a planographc blank according to the invention. Merely for clarity, the thickness of the blank and its coatings is greatly increased in FIG. 1.
FIG. 2 is a cross sectional view, in magnified form, of part of the blank of FIG. 1.
FIG. 3 is a schematic showing of a system or organization of apparatus for producing the finished planographic master form in conformity with an original subject matter.
FIG. 4 is a cross sectional view, similar to FIG. 2, of a modification of the blank.
FIG. 5 is a magnified view of the blank of FIGS. 1 and 2, and wherein the perforations are produced by the system of FIG. 3.
Referring to FIG. 1, the blank comprises a backing member of any suitable material to whose surface there is applied an electrically conducting layer 11. This It is' 3,132,584 Patented May 12,' 1964 ICC ' desired thickness of the conductive layer 11. This layer 11 in accordance with the preferred form of the invention consists of a film-forming resin wherein powdered electrically conductive carbon is incorporated and preferably uniformly dispersed throughout its thickness. The sheet or layer 11 may be formed either in a single pass or in a plurality of successive passes, which, of course, when dried, form a single continuous film or sheet of electrically conductive material. If layer 11 is formed in a succession of passes, the succeeding passes may be of different electric conductivity. Thus, as shown in FIG. 4, the layer 11 may consist of two successive passes 11a and 11b. The pass 11a may be formed from a mixture of a film-forming resin in liquid or semi liquid form throughout which is uniformly dispersed powdered electrically conductive carbon of predetermined amountV so as to impart to the pass 11a, when dried, a relatively high electric conductivity considered through its thickness. The next pass 11b may also be formed of a liquid or semi liquid suspension of a film-forming resin containing electrically conductive powdered carbon but of a nature such that the pass 11b, when dried, has a considerably lower electric conductivity than pass 11a. While the ratio of the conductivities of the two passes 11a and 11b is not critical, preferably the pass 11a should have a conductivity which is the same or greater than the conductivity of pass 11b. In the particular embodiment of FIG. 4, the pass 11a may be referred to as the base coat and the pass 11b may be referred to as the intermediate coat. For a detailed description of typical formulations for the coating 11 and for the coatings 11a, 11b, reference may be had to U.S. patents Nos. 2,555,321 and 2,664,044. As pointed out in said application Serial No. 248,509, the plastic which forms the layer 11 may be any well known film-forming resin or plastic such for example as the following: vinyl ester polymers, or reaction products of polyvinyl alcohol and aldehydes, cellulose esters, ethers or the like; .e., any one of the well known film-forming resins or elastomers such as vinyl chloride polymers, vinylidene chloride polymers, vinyl chloride-vinyl acetate copolymers, polyvinyl butyral polymers, styrene polymers, cellulose nitrate, cellulose acetate, ethyl cellulose, etc.
In both the embodiments of FIG. 1 and FIG. 4, the conductive plastic layer 11 has applied thereto by any well known process a top coating 12 of hydrophilic, Water insoluble but ink-repellent material. For example, the coating 12 may be formed from a mixture containing casein and a hardening agent such as formaldehyde, or carboxy methyl cellulose and a hardening agent such as an aluminum salt, etc. It may also include a whitish pigment, such as zinc sulfide, with a small amount of a preservative and a small amount of a plasticizer.
When the coating 12 is dried by heat, the formaldehyde 3 porosity, a wash coat formed for example of a dilute water solution of a cellulosic sizing agent, 'such as Cellosize or carboxy methyl cellulose, can be applied. The latter wash coating does not require any special drying heat as it dries almost immediately.
In view of the fact that the coating 12 has a much higher electrical resistance than the coating 11, I have found that it is possible to convert the above described blank directly into a planographic printing master by subjecting the surface 12 of the blank to the action of a needlepointed electrically charged stylus, indicated in the drawing by the numeral 13. Since the hydrophilic and ink-repellent coating 12 is of very high resistance, as compared with coating 11, the electric discharge from the stylus 13 results in a minute perforation of only the coating 12, which perforation is confined to the minute region directly beneath the point of the stylus, and no perforation whatever takes place in the backing 10. As a result, at the elemental regions where the coating 12 is perforated, the carbon containing layer 11 is exposed. These minute exposed regions of layer 11 are ink-receptive, but waterrepellent. Since the remaining unperforated portions of surface 12 retain their hydrophilic and ink-repellent properties, it is possible to use the finished recorded blank directly as a master in any well known lithographie or planographic printing machine.
I have found that the coating 12 can be made of such thickness that in those regions acted upon by the electrically energized stylus 13, the ink from the inking surface of the planographic machine is readily taken up only by the exposed carbon in registry with the minute perforations in coating 12, as indicated by the numeral 14 in FIG. 5. In other words, in the final recorded blank, as inked by the usual inking roller of the planographic machine, the ink is substantially flush with or only slightly above the surface of coating 12, whereas when the carbon is deposited on a hydrophilic surface, as in said application Serial 248,509, the ink is received by a slight mound of carbon, although this mound has an extremely minute height above the hydrophilic surface. In any event, it has been found that in a recorded plate such as that described hereinabove, it is possible to use the plate directly in a planographic printing machine without any further treatment such as stripping, photographic exposing, developing, or fixing, as is true of the ordinary planographic or offset printing masters.
Referring to FIG. 3, there is shown in schematic form an organization of apparatus for recording on the planographic blank, so as to convert it to a master ready for direct use in the press. The system comprises a pair of rotatable drums 15, 16, which may be mounted on a common shaft 17 and driven from a suitable motor (not shown). If desired, these drums may be separately located and each driven by a respective motor and by suitable well known means the drums may be kept in rotational synchronism. Arranged to be wrapped around the transmitting drum 15 is the sheet 18 containing the subject matter 19 to be recorded on the planographic blank, which latter blank is wrapped around the receiving drum 16 with the backing member 10 in contact with the metal surface of drum 16, and with the hydrophilic surface 12 exposed to the recording stylus 13. The subject matter 19 on sheet 18 is scanned in successive elemental areas by any well known electro-optical translating system, represented schematically by the light source 20, lens 21, photo-electric cell 22 with its apertured masking housing 23. The units 20 to 23 can be carried on a suitable lead screw arrangement whereby they are indexed as a unit along the length of the drum 12 in timed relation to the drum rotation. Likewise, the recording stylus 13 may also be carried on the same lead screw. In other words, the scanning light beam 24 traces a scanning path on the sheet 18 in synchronism with the trace of the stylus 13 with respect to surface 12.
The cell 22, in the well known manner, produces electric signal voltages which are determined by the lights and shades of the subject matter on sheet 18. These electric signals may be applied to an amplitude modulator 25 which modulates a suitable carrier wave from the source 26. This amplified, modulated carrier wave is then received in the receiving amplifier 27, and by means of a suitable coupling circuit or transformer 28, the amplified signals are impressed on the stylus 13.
Because of the electric conductivity of the layer 11, when the stylus 13 is thus electrically energized, current flows from that stylus through a minute area on the coating 12 of the planographic blank. The electric discharge passing through the coating 12 is accurately confined to the extremely minute region beneath the tip of the stylus, thus modifying the surface 12 so as to change it at the minute recorded region from a hydrophilic, ink-repellent character to a hydrophobic, ink-receptive character. It is found that after being thus acted upon, the film or coating 12 has minute holes or perforations 14 therein where the pulses of current have been applied by stylus 13. In order to complete the electric circuit through the planographic blank, the edge of the blank may be provided with a grounded sheet-clamping device which makes contact with the conductive layer 11. When the recording has been completed, the blank can be unwrapped from the drum 16 and used directly in any well known lithographie, planographic, or offset printing machine.
If desired, a suitable water-repellent ingredient, such as a wax, may be mixed with the powdered carbon to increase the water repellency of the exposed carbon without materially affecting its ink receptivity.
What is claimed is:
l. The method of making a blank which is useful for recording electric facsimile signals and also for lithographic printing after such recording thereon, which method comprises applying to a backing member a carboncontaining coating which contains electrically conductive powdered carbon and a film-forming binder and which is water-repellant and ink-receptive, and applying over said earbon-containing coating which includes a powdered pigment and a water insolubilizing ingredient to render it a lithographie coating perforatable in minute localized areas by stylus applied electric discharges, said lithographic coating including an ink-repellent ingredient, a hydrophilic binder, a water insolubilizing ingredient and a powdered pigment, the said lithographie coating being of a thinness sufficient to mask the background color of the carbon-containing coating.
2. The method according to claim l, in which said conductive coating is applied with a graded conductivity considered through its thickness and with the stratum of lower conductivity located adjacent said lithographie coating.
3. The method according to claim 1, in which said conductive coating is formed by mixing powdered carbon with a film-forming resin and with a water-repellent ingredient.
4. The method of making a lithographie printing master which comprises applying to a water-resistant backing member a carbon-containing layer integrally bonded thereto, which layer includes electrically conductive powdered carbon and a film-forming binder and which is water-repellent and ink-receptive, applying over said carbon containing layer a lithographie coating which is perforatable in minute localized areas by stylus-applied electric discharges, said lithographie coating being hydrophilic, ink-repellent and water-insoluble and of a thinness sufficient to mask the background color of the carboncontaining coating, and perforating said lithographie coating by applying thereto electric discharges in signal-controlled localized areas.
5. A lithographie printing master comprising, in combination, a water-resistant backing member to which is permanently and integrally attached an electrically conductive layer containing electrically conductive powdered carbon and a film-forming binder and which layer is water-repellent and ink-receptive, and a lithographie coating of hydrophilic, ink-repellent and water-insoluble material on said conductive layer, said lithographie coating being of a thinness suicient to mask the background color of said carbon-containing layer, said lithographie coating having minute perforations corresponding to subject matter to be printed and thereby exposing the corresponding minute ink-receptive areas of said carbon-bearing layer, the unperforated areas of said lithographie coating retaining their hydrophilic ink-repellent and water-insoluble characteristics.
6. An electrosensitive recording blank comprising a backing, an electrically conductive ink-receptive coating on said backing which contains electrically conductive powdered carbon and a film-forming binder, and a lithographic coating on said conductive coating which lithographic coating is hydrophilic, ink-repellent and includes a water insolubilizing agent.
7. An electrosensitive recording blank according to claim 6 in which said ink receptive coating includes a water repellent ingredient.
8. An electrically inscribable lithographie printing plate comprising a wet-strength paper base having an electrically conductive and oleophilic coating adhered thereto, said oleophilic coating containing electrically conductive carbon and a binder as the essential ingredients thereof, and, on the said oleophilic coating, an adherent, water insoluble, hydrophilic coating containing, as the essential ingredients thereof, a hydrophilic colloid, an insolubilizing agent for the said colloid and zinc sulfide as a pigment; the hydrophilic coating being removable by and the oleophilic coating not being removable during the inscribing of the lithographie printing plate by an electric current.
9. A lithographie printing blank, comprising a flexible backing member having an exposed surface coating which contains a pigment filler in a hydrophilic binder to render it water receptive and which coating includes a water in- 11. A blank for making aA printing master of the lithographic kind, said blank comprising in combination a backing having an electrically conductive coating containing a film-forming resin and powdered carbon dispersed throughout the resin, which coating is normally waterrepellent but ink-receptive, and a hydrophilic lithographie coating containing a hydrophilic binder and an insolubilizing agent therefor together with a powdered pigment uniformly dispersed therein, said lithographie coating being of a thinness which masks the background color of said conductive coating and being of higher resistance than said conductive coating, rendering said lithographie coating removable in localized areas corresponding to localized electric discharge thereat to expose corresponding areas of said conductive coating which are waterrepellent and ink-receptive for lithographie printing, while the remaining unremoved areas of said lithographie coating are hydrophilic but water insoluble.
12. A blank according to claim 11 in which said conductive coating is formed of at least two strata of respectively different electric conductivities.
13. A blank according to claim 12 in which the carbon in the stratum next adjacent to the lithographie coatsolubilizing agent, and an electrically conductive layer between said backing member and said surface coating being of a thinness merely sufficient to mask the color of the conductive layer which layer `consists of an electrically conductive plastic film of a film-forming resin and powdered carbon, said surface coating being of a thinness merely sufficient to mask the color of the conductive layer when removed in localized areas by electric voltages stylus-applied thereto exposing the said conductive layer only at said localized areas which areas are inkreceptive.
10. An electrosensitive recording blank comprising a backing, an electrically conductive water-repellent but ink-receptive film-forming resin coating on said backing, said coating containing powdered carbon in a film-forming resin binder, and'a lithographie coating on said conductive coating which lithographie coating includes a filler and hydrophilic binder to make it water-receptive but is water insoluble by inclusion of a separate insolubilizing agent.
ing contains a water-repellent ingredient.
14. A blank according to claim 11 in which said lithographic coating contains casein insolubilized with a hardening agent.
' 15. A blank according to claim 11 inwhich said lit-hographic coating contains a binder chosen from the group consisting of casein, water insoluble glue, starch, methyl cellulose, carboxy methyl cellulose, and polyvinyl-methylether-maleic anhydride copolymer.
16. An electrically inscribable lithographie printing plate comprising a paper base having an electrically conductive and ink-receptive coating adhered thereto, saidv ink-receptive coating containing electrically conductive carbon and a binder as the essential ingredients thereof, and on the said ink-receptive coating, an adherent, water insoluble, hydrophilic coating, containing, as the essential ingredients thereof, a hydrophilic colloid, an insolubilizing agent for the said colloid, and a whitish pigment; the hydrophilic coating being removable by, and the inkreceptive coating not being removable during the inscribing of the lithographie printing plate by an electric current.
References Cited in the file of this patent UNITED STATES PATENTS 2,398,779 Dalton et al. Apr. 23, 1946 2,534,650 Worthen Dec. 19, 1950 2,554,017 Dalton May 22, 1951 2,555,321 Dalton et al. June 5, 1951 2,562,782 Frost July 3l, 1951 2,664,044 Dalton Dec. 29, 1953 2,693,145 Mullen Nov. 2, 1954 2,713,822 Newman July 26, 1955 FOREIGN PATENTS 550,575 Germany May 12, 1932

Claims (1)

  1. 8. AN ELECTRICALLY INSCRIBABLE LITHOGRAPHIC PRINTING PLATE COMPRISING A WET-STRENGTH PAPER BASE HAVING AN ELECTRICALLY CONDUCTIVE AND OLEOPHILIC COATING ADHERED THERETO, SAID OLEOPHILIC COATING CONTAINING ELECTRICALLY CONDUCTIVE CARBON AND A BINDER AT THE ESSENTIAL INGREDIENTS THEREOF, AND, ON THE SIDE OLEPHOLIC COATNG, AND ADHERENT, WATER INSOLUBLE,HYDROPHILIC COATING CONTAINING, AS THE ESSENTIAL INGREDIENTS THEREOF, A HYDROPHILIC COLLOID, AND INSOLUBILIZING AGENT FOR THE SAID COLLOID AND ZINC SULFIDE AS A PIGMENT; THE HYDROPHILIC COATING BEING REMOVABLE BY AND THE OLEOPHILIC COATING NOT BEING REMOVABLE DURING THE INSCRIBING OF THE LITHOGRAPHIC PRINTING PLATE BY AN ELECTRIC CURRENT.
US445615A 1954-07-26 1954-07-26 Planographic master-forming blank and method of manufacture thereof Expired - Lifetime US3132584A (en)

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US445615A US3132584A (en) 1954-07-26 1954-07-26 Planographic master-forming blank and method of manufacture thereof
DET10890A DE1142372B (en) 1954-07-26 1955-05-02 Electrically sensitive printing plate sheets intended for making a printing plate
FR1130072D FR1130072A (en) 1954-07-26 1955-05-05 Blank for forming a planographic image and method for making this blank

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Publication number Priority date Publication date Assignee Title
US4241134A (en) * 1979-05-24 1980-12-23 Gaf Corporation Electrostatically imageable drafting film
US4309486A (en) * 1978-01-19 1982-01-05 Felix Schoeller Jr. Gmbh & Co. Kg Electrostatic recording material
US4345845A (en) * 1981-06-19 1982-08-24 International Business Machines Corporation Drive circuit for thermal printer
US4434429A (en) 1980-10-15 1984-02-28 Hitachi, Ltd. Information recording member and method of fabricating the same

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DE550575C (en) * 1927-05-25 1932-05-12 Karl Schinzel Dr Process for the production of printing forms by tanning in writing or image, tanning or destroying colloid layers by electrochemical means
US2398779A (en) * 1942-03-24 1946-04-23 Timefax Corp Method of making duplicating blanks by telefacsimile and the like
US2534650A (en) * 1947-05-09 1950-12-19 Warren S D Co Planographic printing plate and method of making same
US2554017A (en) * 1946-11-14 1951-05-22 Timefax Corp Electroresponsive recording blank
US2555321A (en) * 1941-08-08 1951-06-05 Western Union Telegraph Co Facsimile recording paper
US2562782A (en) * 1947-12-29 1951-07-31 Warren S D Co Water-repellent ink transfer surface
US2664044A (en) * 1948-01-16 1953-12-29 Timefax Corp Electric signal recording blank
US2693145A (en) * 1948-03-09 1954-11-02 Dick Co Ab Lithographic printing plate and method of making
US2713822A (en) * 1948-12-20 1955-07-26 Columbia Ribbon & Carbon Planographic printing

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DE1025259B (en) * 1953-05-26 1958-02-27 Int Standard Electric Corp Process for the production of a recording medium for telegraphs
BE536594A (en) * 1954-03-18

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Publication number Priority date Publication date Assignee Title
DE550575C (en) * 1927-05-25 1932-05-12 Karl Schinzel Dr Process for the production of printing forms by tanning in writing or image, tanning or destroying colloid layers by electrochemical means
US2555321A (en) * 1941-08-08 1951-06-05 Western Union Telegraph Co Facsimile recording paper
US2398779A (en) * 1942-03-24 1946-04-23 Timefax Corp Method of making duplicating blanks by telefacsimile and the like
US2554017A (en) * 1946-11-14 1951-05-22 Timefax Corp Electroresponsive recording blank
US2534650A (en) * 1947-05-09 1950-12-19 Warren S D Co Planographic printing plate and method of making same
US2562782A (en) * 1947-12-29 1951-07-31 Warren S D Co Water-repellent ink transfer surface
US2664044A (en) * 1948-01-16 1953-12-29 Timefax Corp Electric signal recording blank
US2693145A (en) * 1948-03-09 1954-11-02 Dick Co Ab Lithographic printing plate and method of making
US2713822A (en) * 1948-12-20 1955-07-26 Columbia Ribbon & Carbon Planographic printing

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4309486A (en) * 1978-01-19 1982-01-05 Felix Schoeller Jr. Gmbh & Co. Kg Electrostatic recording material
US4241134A (en) * 1979-05-24 1980-12-23 Gaf Corporation Electrostatically imageable drafting film
US4434429A (en) 1980-10-15 1984-02-28 Hitachi, Ltd. Information recording member and method of fabricating the same
US4345845A (en) * 1981-06-19 1982-08-24 International Business Machines Corporation Drive circuit for thermal printer

Also Published As

Publication number Publication date
DE1142372B (en) 1963-01-17
FR1130072A (en) 1957-01-30

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