DE1270997B - Method for transferring images - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

B 44c

German class: 75 b-6

Number: 1270 997

File number: P 12 70 997.6-45

Filing date: February 10, 1964

Opening day: June 20, 1968

The present invention is concerned with the transfer of images from a surface to another. The method according to the invention is based on the transfer of pigments and is therefore particularly suitable for the reproduction of such images, their pigments on a base are loosely bound, for example newspaper printing, animated drawings, pencil drawings or Coal sketches.

From the German patent 391616 is ίο already a transfer printing plate is known, which are used for the production of hectographic prints can. However, this image transfer material is rigid and therefore only allows one of the same dimensions Transfer of the original. Furthermore, the plate has to be cumbersome before each new transfer Cleaning procedures.

The inventive method for transferring images from a bearing the images Surface to the surface of porous materials by means of an image carrier, on the other hand, is characterized by that an image carrier made of flowable, coherent borosiloxanes is used and the Surface of the porous material is moistened with siloxane solvents before transfer.

The transfer of the image material to the siloxane carrier is expediently carried out in that the image Bearing surface (e.g. pencil drawing) brought into contact with the siloxane compound for so long until the image pigments are transferred to the siloxane carrier, then it is now the image The supporting image carrier is separated from the original base and with the porous material the image is to be transferred, brought into contact in the manner described.

The method according to the invention can best be explained with reference to the drawings, in which the individual steps of image transfer are shown.

F i g. 1 shows substrate 7 with an image 8 thereon, which is shown in FIG

2 completely covered by the siloxane mass 9 will;

Fig. 3 shows the reproduction 8a (by transmission from picture 8) on the surface of the siloxane composition 9 which is being removed from the substrate 7; in

F i g. 4 the siloxane mass with the reproduction 8 a is placed on the surface of substrate 10, which has been previously moistened with a solvent in which the borosiloxane is soluble; F i g. Figure 5 shows the siloxane mass removal method for transferring images

Applicant:

Dow Corning Corporation, Midland, Mich.

(V. St. A.)

Representative:

L. F. Drissl, lawyer,

8000 Munich 23, Clemensstr. 26th

Named as inventor:

Daniel R. Pail, Midland, Mich .;

Robert E. Sullivan, Bay City, Mich. (V. St. A.)

Claimed priority:

V. St. ν. America March 4, 1963 (262 481)

leaving the reproduction 8 ″ on the surface of substrate 10.

The time required for each of these steps is not critical, it depends on the nature of the substrates 7 and 10 as well as the solvent used with which the substrate 10 was moistened. In general, the image of the siloxane composition appears almost immediately upon contact with the surface of the first substrate and the transfer to the wetted surface of the second Substrate also takes place almost immediately. In general, the siloxane composition should be with the two substrates do not stay in contact for too long, otherwise there is a risk that the borosiloxane will get into the pores penetrates and sticks.

The amount of solvent with which the second substrate is wetted is not critical; however, it is advantageous to add excess solvent before applying the siloxane composition remove. This prevents the image from being smeared and provides better reproduction.

The borosiloxanes used as the image transfer material must have the characteristic properties of flowability and coherence, because it is only a flowable, but not coherent substance to be removed only incompletely from the substrate surfaces and therefore for the inventive Purpose is not suitable. In contrast, borosiloxanes of any composition are characteristic of these Properties show usable. By "flowable" and "coherent" is meant that the

809 560/127

material in question is flowable while standing so that it adheres to the surface on which it is applied, fully conforms, but then peeled off the surface in one piece or can be removed. The combination of these properties enables borosiloxane, the pigments of the Image so that the image can be easily removed from its original surface without distortion can be separated. The siloxane compound must be so strong that the image during the transfer of one surface on the other suffers kernel distortion. On the other hand, the combination makes it possible these properties of the siloxane compound but also a desired change in the image after this has been detached from the first surface, for example by pulling or stretching or otherwise changing the siloxane mass, so that the reproduction of the image by lengthening or Stretching or other changes to the surface of the image can be enlarged or distorted.

Due to the flowability of the siloxane compound under stress such distortions are easily manageable without premature return of having to fear the mass in its original state, which is undoubtedly with one non-flowable, elastic or resin-like material would be the case.

As a borosiloxane for the purpose according to the invention, the so-called "spring putty" is preferred, which by Reaction of a diorganopolysiloxane (preferably a dimethylpolysiloxane) with an active boron compound, such as alkyl borates, boric acid or boron trioxide can be produced. The implementation will carried out at temperatures between 100 and 250 ° C, depending on the boron compound used.

The essential step of the method according to the invention consists in touching the image carriers Siloxane mass with a porous material that is moistened with a siloxane solvent must, with the transfer of the image from the siloxane surface to the surface of the porous Substrate takes place. The moistening can be done by any measures, for example by immersion, Brush on or spray on.

Examples of siloxane solvents are carboxylic acids such as oleic or 2-ethylhexanecarboxylic acid; aliphatic hydrocarbons such as petroleum ether or petroleum fractions having a boiling range from 93.3 to 162.0 ⁰ C (VM and P Naphtha); Alcohols such as 2-EthyUiexanol, lauryl alcohol, 2,6,8 -trimethyl-4-nonanol, oleyl alcohol, 2-butene-1,4-diol, 1,2,6-hexanetriol, 1,5-pentenediol, neododecanol, 2- Ethyl 1,3-hexanediol or isopropanol; Esters such as carboxylic acid esters, for example sorbitol trioleate, isopropyl myristic acid, linseed oil, dioctyl adipate or the monoisobutyrate of trimethylpentanediol and phosphoric acid esters such as dibutyl phosphate; Ethers such as the monoethyl ether of ethylene glycol, dioxane and the monomethyl ether of tripropylene glycol; aromatic hydrocarbons such as xylene; chlorinated hydrocarbons such as perchlorethylene; Amines such as tri-n-butylamine; Amides such as lauric acid dietholamide; Ketones such as acetone or siloxanes such as dimethylpolysiloxanes containing low molecular weight hydroxyl groups.

These solvents can be used alone or in admixture. Excellent reproductions are z. B. by moistening with a solvent mixture of 70% isopropanol and 30% water is obtained, which contains 1% of the following substances: Na salts of sulfosuccinic acid dioctyl ester, Sodium lauryl sulfate, ammonium lauryl sulfate or sodium dodecylbenzenesulfonate.

Examples of porous substrates are unsmoothed paper, unglazed pottery, asbestos, organic Fabric or glass fabric. To achieve a sharper contrast effect, it is advantageous if the The substrate is white, although this is not essential for carrying out the method according to the invention is. Paper types with titanium dioxide fillers are particularly preferred.

The many possible uses range from the automatic reproduction of printed matter Material up to the hand reproduction of trick drawings on children's toy buckets.

With the help of the claimed method, children can do animated drawings of all by hand Art transferred to pretreated paper, the achievement of dimensionally unequal transfers popular entertainment game.

The siloxane composition can be used repeatedly and to reproduce various images It is only necessary to ensure that all pigment particles are first reproduced from the surface by reshaping the mass and creating a new surface before the next image reproduction be carefully removed. This can also be done mechanically or by hand.

Claims (1)

Claim: Method for transferring images from an image-bearing surface onto the surface of porous materials by means of image carriers, characterized in that that an image carrier made of flowable coherent borosiloxanes is used and the surface of the porous material is moistened with siloxane solvents prior to transfer. Considered publications:
Chemistry and Technology of Silicones, 1960,
P. 318. 1 sheet of drawings 809 560/127 6.68 © Bundesdruckerei Berlin