US1826228A

US1826228A - Decalcomania

Info

Publication number: US1826228A
Application number: US317703A
Authority: US
Inventors: Tull Roger
Original assignee: WESTERN LITHOGRAPH Co
Current assignee: WESTERN LITHOGRAPH Co
Priority date: 1928-11-07
Filing date: 1928-11-07
Publication date: 1931-10-06
Anticipated expiration: 1948-10-06

Description

Oct. 6, 1931.

R. TU LL DECALCOMANIA Filed Nov. '7, 1928 Patented Oct. 6, 1931 UNITED STATES PATENT OFFICE ROGER TULL, OF LOS ANGE-LES, CALIFORNIA, ASSIGNOR TO WESTERN LITHOGRAPH COMPANY, OF LOS ANGELES, CALIFORNIA, A CORPORATION OF CALIFORNIA DECALCOMAN IA Application led November 7, 1928.

This invention relates to decalcomanias,

Heretotore decalcomanias have been made by pressing paint through a stencil screen or screens upon prepared decalcomania paper, and it is an object ot this invention to provide a method and means whereby decalcomanias may be printed from stencil screens by the use ot a nitro-cellulose compound.

One great advantage ot decalcomanias printed with a nitro-cellulose compound is that the color coat, or coats, is much tougher than a color coat produced by paint, thus producing a deealeoniania that can be more easily handled without destroying or injuringr the same. This. ot course. is a great advantage where decaleomanias are ot relatively large dimensions. This invention enables decaleomanias to be made ot any practical size so that it is possible to use them in place ot large lithographs ot the character heretofore mounted, tor example. on billboards.

Another important object is a large. reduction in the amount ot time required for dryingv between the different color runs, thus making it possible to print, a iob in any number of color runs in much less time than tormerly.

Other objects and advantages will appear in the subjoined detailed description.

The accompanying drawings illustrate the invention.

Figure 1 is a plan view ot a decalcomania embodying the invention.

Figure 2 is a horizontal section on the line indicated by Q-2. Fig. l. the thickness ot the paper and of the various coats beineT more or less exaggerated. This is a reverse 0r inverted opaque type ot' decaleomania.

Figure 3 is a sectional view, similar to Fig. 2. ot a reverse or inverted transparent type ot decalcomania embodying the invention.

Figure 4 is a sectional view. similar to Fig. 2. ot a. slip-ott type of decalcomania embodying;- the invention, and Fig. 5 is a sectional view similar to Fie'. 2 ot a decaleomania embodyingT a modified form ot the invention.

Fig. 5 is similar to Fig'. 4. illustrating a decalcomania including` paper P, one color coating fr which may be formed from the com- Serial No. 317,703.

pound described as No. 6, this containing the same materials as coating compound No. 2 except for the substitution of printers ink for the color pigment. A second color coat Ac may be employed, this coating being similar to that described as compound No. 2 with a color pigment diiierent from the printers ink. A third coatingT Cc may next be applied while a top coating Dc may then be applied.

For printing the deealcomanias, I make the followingf compounds:

I produce a nitro-cellulose color compound by mixing together nitro-cellulose, a gum, a plasticizer and a solvent. The amounts of the various ingredients may be, for example, two pounds of the nitro-cellulose dissolved in one gallon ot the solution, and one-halt pint each of the gum and plasticizer to one gallon of the nitro-cellulose solution. Examples of the gum, plasticizer and solvent that I have successfully employed in this compound are, respectively, ester gum. dibutylphthalate, and ethyl oxybuterate. This compound is identitled as No. l and is, of course, substantially transparent. This compound, besides beine' employed alone in some instances. is the vehicle that carries the color pigments and, accordingly. pigments ot any color or combination et colors are mixed with some of No. 1 compound to produce a compound'identified as No. 2.

No. 3 compound consists et oil paint ground in varnish and t-he proportions may be, for example, varnish to 25% color pigment. This compound is approximately impervious to air and may be otherwise produced so longf as the substances are of a kind that dry by oxidation so that when dry it is flexible.

No. 4 compound is made by mixing varnish, elastic glue and metallic powder and the proportions, approximately. may be 49% varnish, 49% elastic glue and 2% metallic powder.

No. 5 compound consists of varnish and elastic Lelue and the proportions may be equal quantities of each.

No. 6 compound consists of a mixture of No. l compound with printers ink and the proportions may be, tor example, 75% No. l compound and 25% printers ink.

The printing operations are as follows:

Assuming that a. reverse or inverted opaque type of decalcomania, shown in Figs. l and 2, is to be printed. the stencil screens to be employed, and well understood in the stenciling art, are prepared so as to read backwards. A sheet of decalcomania paper l) is placed beneath the stencil screen and No. 2 color compound is forced through said screen onto said paper to produce the color coat A. This printing is allowed to dry for approximately fit'- teen minutes.l and another color run will then be made with No. Q compound of a different color or shade of color on the decalcomania paper that has already been printed, as above, to produce the color coat B. In this instance, the coat A is a part of the background color and the coat B forms the letter It. The dif ferent color runs are thus made in rotation until all of the colors in the original design from which the stencil screens were made. have been printed and have properly dried between the printing operations.

After the different color coats have been printed, as above described, the reinforcing or toughening coat will be printed on the decalcomania, so that said decalcomania can he readily handled without injury thereto when said decalcomania is being applied to a supporting surface` in a manner well understood in this art. This reinforcing coat may also be employed for strengthening or brightening the color and, for that reason, it is `generally made of a color that corresponds to the. color of the last color coat that was printed with the No. 2 compound. To print this coat, the print produced as above described will be placed beneath the stencil screen employed for the last color run, after said screen has been cleaned, or may be placed beneath another screen. and No. 3 compound will be forced therethrough, thus producing a transparent coat C that is approximately impervious to air and the screen will then be cleansed and, after the reinforcing' coat is dry, the print will again be placed beneath the same screen or another one, and No. It compound will be pressed through said screen so as to provide the decalcomania with a coat D that will have an adhesive nature when dampened with water. This coat dries and, when it is desired to mount the decalcomania on a supporting surface, this final coat I) is dampened by rubhing thereover a wet sponge.

Assuming that a reverse or inverted transparent type of decalcomania. shown in section in Fig. 3. is to be printed. the color printing with No. 2 compound will first be effected the same as above described. to produce the color coats Aa, Ba., and, after drying, the prints thus made will again be placed beneath the screen or screens used for printing thc coats Aa, Ba, or beneath another screen and No. 1 compound will be forced therethrough, thus producing a clear coat IC. The

screen Will then be cleansed and the printing allowed to dry and t-he dried print Will then again be placed beneath the same screen or another screen and No 5 compound forced therethrough to produce the coat F. This No. 5 compound, being devoid of metallic powder, transparent.

To produce the slip-off type of decalcomania` shown in section in Fig. 4, the decalcomania paper will bc placed beneath a suitable screen and No. l compound will bc pressed through said screen upon said paper to produce thereon the coat EZ). The print thus made will be allowed to dry and will then be placed beneath the same screen or another one and No. 3 compound will be 'forced through said screen to produce the coat CZ). The print thus made will be allowed to dry and will then be again placed beneath the same screen or a different one and No. 2 compound will be forced through said screen to produce the color coat AZ). Other color runs of different colors will then be run off in the same manner until all of the desired colors have been printed. In Fig. t two color coats are shown. the color coat A7) and the color coat B7). The decalcomania paper has on the surface, that is presented to the n'iounting surface, an adhesive coating G that is applied thereto by the manufacturer of the paper.

In the foregoing described printing operations, the printing has been effected entirely bythe use of screens, but it is to be understood that, in lieu of printing with the screen, the printing may he done on a printing press by the use of No. G compound. The press printing is preferably resorted to for those coats in which relatively fine detail appears. Thus, all of the coatsI may be printed on a printing press, or all of them may be printed by use ot' the screens, or some of them may be printed on the press and some by the use of the screens.

It is to be understood that, although I have. described the reproduction as being made on decalcomania paper, it may be produced on cardboard. sheet metal or any other suitable material.

In describing the method, reference has been made to first, second and third screens. This numerical designation o'f the screens is only for the purpose of clarity of description of the operations of printing the different coats and it is to be understood that a single screen may be employed by first cleaning it and then reblocking out portions of its surface or that, in some instances, different screens may be rei'nescnted by a single screen used in printing different compounds.

I claim:

l. A de lalcomania characterized in that it includes decalcomania paper, and a design thereon havinga coat including nitro-cellulose, gum, plaslicizer, a solvent and color pigments, and having a second coat including oil paint ground in varnish.

Q. A decalcomania characterized in that it includes decalcomania paper, and aI design thereon having a coat including nitro-cellulose, gum, plasticizer, a solvent and color pigments, and having a second coat including oil paint. ground in varnish, and having a third coat including varnish, elastic glue and metallic powder.

8. A decalcomania comprising decalcomania paper, and a design thereon having a coat including nitro-cellulose, gum, plasticizer, a solvent and printers ink, and having a Second coat including nitro-cellulose, gum, plasticizer. a solvent and color pigments, and having a third coat including oil paint ground in varnish, and having a fourth coat including varnish, elastic glue and a metallic powder.

4. A decalcomania characterized in that it includes decalcomania paper, and a design thereon, having a coat including nitro-cellulose, gum, plasticizer, a solvent and color pigments, and having a coat that is approximately impervious to air.

5. A decalcomania characterized in that it includes decalcomania paper, and a design thereon having a coat including nitro-cellulose, gurn, plasticizer, a solvent and color pigments, and having a. second coat that is approximately impervious to air, and having another coat including varnish, elastic glue and metallic powder.

6. A decalcomania comprising decalcomania paper, and a design thereon having a coat including nitro-cellulose, gum, plasticizerv` a solvent and printers ink, and having another coat including nitro-cellulose, gum, plasticizer, a solvent and color pigments, and having another coat that is approximately impervious to air, and having another coat including varnish, elastic glue, and a metallic powder.

Signed at Los Angeles, California, this 15th day of Sept., 1928.

ROGER TULL.