KR920010112B1 - Multilayer flexible transfer ribbon - Google Patents

Abstract

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Description

Multilayer Flexible Transfer Strip

The present invention provides a multi-layer flexible transfer strip or ribbon having a contact adhesive layer with an auxiliary carrier, wherein a binder-containing transfer strip is provided between the auxiliary carrier and the contact adhesive layer with greater adhesion to the contact adhesive layer than to the auxiliary carrier. It is about.

Numerous possibilities are known that pigmented liquid systems can be used to mask misleading expressions. Thus, in office work, a white pigment additive dispersion containing a high volatile organic solvent is used with a brush to correct typed characters. However, evaporation of highly volatile organic solvents harms the environment. There is a possibility that typing will be delayed because it is necessary to wait a relatively long time until the evaporation is completed. In general, using a correction dispersion with a brush does not yield a uniform correction liquid application layer.

A better correction of miswritten expression can be achieved by DE-OS 26 26 891, which document consists of a multi-layer consisting of an auxiliary carrier coated with an adhesive separation layer, a polyvinyl alcohol bond transfer layer and a thin adhesive coating layer. Describes a flexible transfer strip. The transfer layer also contains white titanium as a pigment. After removal of the auxiliary carrier, the transfer layer is coated on the mistyped characters to correct the mistyped characters. The document does not mention any use in hand delivery rollers as described later in connection with the present invention, and, as the tests have shown, does not result in rapid tear-off of the coating layer. .

It is an object of the present invention to further develop the above-mentioned transfer strips so that the binder-containing transfer coating layer can be used cleanly and distinctly at the point to be covered and that the use in hand instruments is applied to the substrate simply, quickly and uniformly. .

The object is solved by providing a binder-containing transfer coating layer with release aid means in the form of a soluble cellulose derivative.

Preferably, the flexible transfer strip of the present invention comprises a plastic film, such as used with carriers of a type of phosphate, such as polyethylene terephthalate, polypropylene, polyethylene, polyvinylchloride, and polycarbonate. Silicone coated paper is also suitable as an auxiliary carrier. The silicone coating layer reduces the bonding force between the binder containing transfer coating layer and the auxiliary carrier. The silicone coating layer can also be replaced with other antiblocking agents such as polytetrafluoro ethylene.

Preferably, the thickness of the auxiliary carrier is approximately 10 to 60 µm, more preferably 15 to 55 µm, and the upper coating layer has a thickness of approximately 5 to 40 µm, preferably approximately 15 to 25 µm and a contact adhesive coating layer. Silver has a thickness of about 1 to 8 μm, preferably 2 to 5 μm. In order to optimize the transfer strip of the present invention, it is appropriate to select a thickness ratio of the contact adhesive coating layer to the transfer strip of approximately 1: 4 to 1:12, preferably approximately 1: 8 to 1:10.

The contact adhesive coating layer may comprise a commercially available contact adhesive. These are composed of a highly adhesive, elastic, permanently adhesive, semi-adhesive population that immediately adheres to various surfaces under limited pressure at ambient temperature. Preferably, they are applied as an aqueous solution to the delivery coating layer already located on the auxiliary carrier since the already formed binder containing delivery coating layer does not dissolve again. Among these types of contact adhesives, those based on acrylates are particularly advantageous. The starting material may be a viscous aqueous solution or dispersion based on rubber, polyacrylate, polyvinyl ether or polyvinyl isobutylene. Preferred is based on polyacrylates. Suitable commercial products are Ucecryl 913 R and Ucecryl PC80 sold by UCB of Ammelicht, Belgium, and plastic dispersions Phe 8759/6 sold by Freihoff. Preferably, the contact adhesive material which is regularly present in the aqueous medium contains a surfactant or wetting agent sold by Byk W. The solution or dispersion of the contact adhesive for forming the contact adhesive coating layer is preferably applied to the transfer coating layer in an amount of about 1 to 5 g / m ² , more preferably in an amount of about 2 to 4 g / m ² .

For the formation of a binder-containing transfer coating layer, it is preferred to use thermoplastic or thermoelastic polymers in the form of solutions or dispersions. Within the scope of the present invention, the following materials are advantageously used to achieve the object of the present invention: a) polyurethanes having a molecular weight of 15,000 to 50,000, such as Permuthane U4924 from Stahl-Chemie or Desmolac 2100 from Bayer AG, b) linear unsaturated polyesters having a molecular weight of 20,000 to 30,000, such as Vitel PE 307 from Goodxear Tire Rubber, c) styrene-isoprene-styrene copolymers such as Cariflex TR 1107 from Shell-Chemie, d) diphenyl carboxylic acid Modified polyamides such as Scope 30 from Rhone-Poulenc or Emerez 1533 from Emery Chemicals, e) polymer dispersions based on vinylpropionate, such as Propiofan 6D from BASF, g) Carboxymethyl group-containing water-soluble polymethacrylates such as Roehm GmbH Rohagit SD 15.

This list is not exhaustive and does not limit the selection alone. Indeed, it will be readily apparent to one skilled in the art that other binders may be used as the nature of the binder does not constitute the essence of the present invention.

In order to achieve the optimum embodiment of the present invention, the nature of the plasticizer used should also be taken into account when selecting particular binders for forming the delivery coating layer. When applying the transfer coating layer to the surface to be modified or covered, the plasticizer generally must not penetrate the thin contact adhesive coating layer and must not come into contact with the point to be modified or the colorant located therein and in a disturbing manner accompanied by discoloration of the transfer coating layer. It should be used so as not to dissolve the plasticizer. Standard plasticizers such as silicones, casters and mineral oils have been found to be suitable. Other plasticizers used in a preferred manner in other fields, such as, for example, phthalates and oleine alcohols, have been found to be inadequate. In order to reduce the adverse effects of plasticizers when it is difficult to limit, so-called "lakes" which precipitate or insolubilize these migrating colorants are incorporated into the binder containing transfer coating layer to prevent the colorant from migrating into the applied transfer coating layer. Suitable rakes are tannins and tannin derivatives. Generally, rakes of the type known in the ink and India ink industry can be used. Preferably, they are present in the binder containing transfer coating layer in an amount of about 0.5 to 5% by weight, more preferably in an amount of 1.5 to 3.5% by weight. Especially preferred is an amount of about 2 to 2.5% by weight.

During the preparation of the delivery strip according to the invention, the binder selected to form the delivery coating layer is preferably in the form of a solution or used as a dispersion if polymer dispersions are present. The choice of solvent depends on the nature of the binder used. Preferred are low to medium melting organic solvents, for example alcohols such as ethanol, isopropanol and butanol in the boiling point range of 70 to 140 ° C., ketones such as acetone and methyl ethyl ketone, esters such as methyl and ethyl acetate, such as toluene Aromatic hydrocarbons, aliphatic hydrocarbons such as benzene, and mixtures thereof may be mentioned, in addition to these, water itself or a mixture of water and a low melting water soluble oily solvent may be mentioned. The binder concentration in solution or dispersion is not critical to the present invention. Roughly introduced, it may be about 3 to 15% by weight, preferably 4 to 10% by weight. For the formation of the delivery coating layer, the above solution or dispersion is preferably applied to the auxiliary carrier in an amount of 15 to 25 g / m ² , more preferably in an amount of 18 to 22 g / m ² .

As used herein, the term "colorant" is understood in its broadest sense and constitutes a collective term for all color imparting materials, including dyes and pigments. So the colorant may have the character of a filler. Dye is understood to mean a colorant that is soluble in water, organic solvents or binders, in contrast to insoluble pigments. Color can appear immediately and can also appear through fluorescence. For example, the color is applied with the bright color of fluorescence. If the delivery strips of the present invention are used to modify typed letters, chemical representations, etc., the binder containing delivery coating layer specifically contains a white pigment such as titanium white, precipitated calcium carbonate, alumina or colloidal silicic acid. If the transfer coating layer is colored, the colorants used may be inorganic pigments such as chrome yellow, ocher, red iron oxide, blue cobalt, ultramarine blues, Berlin blues, or organic pigments such as alkali blues, phthalocyanines, azo dyes, anthraquinoids. Pigment metal complex pigments, carbon black and iron oxide black. Examples of fluorescent pigments include Blaze Orange 15 from Dayglo, Maxilonbrillant Flavin 10 GFF from Ciba Geigy, Pyranin from Bayer AG and Basonyl-Rot 540 from BASF.

The control of the optimal masking function of the delivery strips of the invention, in particular of the binder-containing delivery lean layer, can be carried out via the pigment content. The optimum pigment content depends on a number of factors such as the nature of the binder selected, the actual pigment and the additives incorporated. No particular value or range can be given. Roughly, the binder / pigment weight ratio is given as about 1: 1 to 1:12, preferably about 1: 3 to 1: 8, more preferably about 1: 4 to 1: 7.

An essential component of the binder-containing transfer coating layer of the transfer strip of the present invention is a “tear-off aid”. The use of such peel off aids ensures that there is a clean peel under tensile stress conditions when applying the transfer coating layer onto the substrate. Surprisingly, it has been found that a relatively limited group of compounds have desirable properties as release aids within the scope of the present invention. In other words, soluble cellulose derivatives have desirable properties.

Particularly preferred cellulose derivatives are cellulose ethers such as methyl, ethyl, hydroxyethyl, ethyl hydroxyethyl and carboxymethyl cellulose, cellulose esters such as cellulose acetate, acetobutyrate and propionate which are soluble in organic solvents and / or water. . However, many other soluble cellulose derivatives also exhibit suitable and desirable actions. It is understood that the basic cellulose structure in the soluble cellulose derivative is important, while the introduction groups, such as ethyl groups, etc., result in the formed derivatives being insoluble in certain selected solvents.

The amount of release aid incorporated into the delivery coating layer depends on the nature of the binder, the nature of the pigment and the nature of the other incorporated additives and is noncritical. Preferred are given in amounts of about 0.5 to 5% by weight, in particular about 1.5 to 3.5% by weight. In particular, preference is given to amounts of about 2 to 2.5% by weight. These are based on dry matter. In addition, the ratio of the amount of release aid to binder can be used as the basis for the formation of the delivery coating layer. Roughly outlined, the ratio of release adjuvant to binder is about 1: 2 to 1:20, preferably given in the range of about 1: 4 to 1:10.

In order to control the application process and to control the properties of the transfer coating layer applied to the substrate, additives may be further incorporated into the transfer coating layer. In particular they may be agents in the form of gel acid derivatives, such as Printan from Ciba Geigy, for the above mentioned lakes for basic dyes, colorants such as carbon black, and covering powders such as aluminosilicates.

In general, the above-mentioned materials of the individual coating layers of the transfer strip of the present invention are defined by the adhesion between the contact adhesive coating layer and the transfer coating layer (adhesive operation corresponding to Dure's equation, reference KL Wolf “Physik und Chemie der Grenzfl "Achen", Springer Verlag 1957, p164) meets the basic requirement that the adhesion between carrier and transfer coating layer is higher. If this is not the case in special cases, suitable antiblocking agents should be applied to the auxiliary carrier to meet these basic requirements. In such cases, other requirements are carefully considered, wherein the transfer coating layer formed on the substrate is non-adhesive to other materials, especially paper, which come into contact with it. Thus, the following adhesion conditions can flow to successful use of the transfer strip of the present invention. The symbol "S" represents the adhesive force ratio between different materials. That is, S ₁ is the adhesive force ratio of the paper / contact adhesive coating layer, S ₂ is the adhesive force ratio of the transfer coating layer / contact adhesive coating layer, S ₃ is the adhesive force ratio of the transfer coating layer / auxiliary carrier, and S ₄ is the transfer coating layer / Adhesion ratio of the paper, S ₅ is the adhesion ratio of the adhesive coating / auxiliary carrier, the following requirements are considered: S ₁ is greater than S ₃ , S ₂ is greater than S ₃ , S ₅ is compared to S ₂ Small and S ₅ is small compared to S ₃ . In addition, the free surface of the transfer coating layer applied to the substrate, in particular paper, should not have adhesion to the outside. Ie S ₄ must be zero or asymptotically at zero. In other words, the applied transfer coating layer upon contact with hand or paper should not be adhesive.

An advantageous method of preparing the delivery strip according to the invention is that a suitable plastic solution containing the abovementioned stripping aid is applied to the auxiliary carrier in the form of a flexible film by conventional coating techniques such as a medical knife, and the solvent Is evaporated at elevated temperature, and the aqueous acid solution containing the contact adhesive is then characterized by the water evaporating after being applied to the binder-containing transfer coating layer by conventional application techniques such as a medical knife or roll coater. .

When using the transfer strip according to the invention, it is advantageous to use a commercial applicator that allows roll movement of the transfer coating layer with contact adhesive while simultaneously recovering the auxiliary carrier. In particular this results in easy handling of the transfer strip of the invention. These applicators may consist of commercially available hand tools. A particularly suitable instrument of this type is a hand roller, in which a transport spool with a transfer strip is located in a housing that is easily gripped, from which the foot of the applicator protrudes and from that foot to the winding sprue in the housing. Is returned. The proper gear between those spools ensures that the transfer strip is always sufficiently tensioned. To use the transfer strip, the user grabs the housing by hand and presses by the applicator's foot an outer (fallable) strip coating layer passing over the distal edge relative to the substrate to be transferred. During pressing, the user moves the instrument relative to the substrate to transfer the covering or fluorescent coating layer to the substrate, which is released from the transfer spun and wound on the winding spun.

The transfer strip of the present invention is particularly suitable for use as a correction medium in offices, schools and homes for the purpose of hiding mistyped letters, signs, drawings and the like. Another use of the transfer strip may be on the colored label of the surface, document and / or sign, so another use containing the transfer strip containing colored pigments is to emphasize the points, symbols or pictorial representations. have. For this purpose, the delivery coating layer is preferably bright and colored with a fluorescent dye. In all of the above mentioned examples of use, the application is particularly advantageous to cause drying. There should be no staining of the liquid coating and no evaporation of the solvent.

Thus, the transfer strip of the present invention makes it possible, in particular, for the covering coat layers containing colorant to be applied to the substrate easily, quickly and uniformly. If the delivery coating layer of the delivery strip of the present invention is bright, it does not contain any covering pigments, the delivery coating layer can be used for short-term screening without coloring and also protects sensitive written characters against the action of air and the like. It can also be used to

The present invention will be described in more detail with reference to the following examples.

Example 1

To form the colorant-containing transfer coating layer, the following dispersion is first prepared (p.b.w. = parts by weight):

The coating was applied to a paper carrier siliconized with a doctor blade in an amount of 18 g / m ² . The solvent was then evaporated by passing over hot air at about 100 ° C. Then, using a doctor blade, an aqueous dispersion having the following components was applied to the surface of the colorant-containing coating layer:

Contact adhesive was applied to a thickness of ² g / m ² using a doctor blade. The water fraction was then evaporated by passing over hot air at about 100 ° C.

The transfer strip obtained was particularly suitable for covering typed text on paper. This resulted in a rapid, uniform application of the coating strips, allowing direct retyping. Application was carried out as a commercially available hand roller.

Example 2

Example 1 was modified with the following formulations for the preparation of colorant-containing delivery coatings:

Example 3

Example 1 was modified with the following formulation to produce a colorant-containing transfer coating.

Example 4

Example 1 was modified with the following formulation to prepare a colorant-containing delivery coating:

The transfer coating of the resulting transfer strip was transparent and colored (orange).

Example 5

Example 1 was modified with the following formulation to produce a colorant-containing transfer coating.

The transfer coating of the resulting transfer strip had good coverage and was white in color.

Claims (16)

A multi-layer flexible transfer strip having an auxiliary carrier and a contact adhesive coating layer, wherein the delivery coating layer containing the binder is located between the auxiliary carrier and the contact adhesive coating layer, which coating layer is stronger for the contact contact coating layer than the auxiliary carrier. The multi-layer flexible transfer strip having adhesion, wherein the transfer coating layer containing the binder contains a stripping aid in the form of a soluble cellulose derivative. The transfer strip of claim 1 wherein the tear aid is present in the transfer coating layer in an amount of 0.5 to 5 wt%. 3. A delivery strip as claimed in claim 1 or 2 wherein the cellulose derivative is ethyl cellulose. The transfer strip of claim 1, wherein the auxiliary carrier is made of plastic or silicone coated paper. The transfer strip of claim 1 wherein the transfer coating layer contains polyurethane as a binder. The transfer strip of claim 5 wherein the polyurethane is an aliphatic monocomponent polyurethane. The transfer strip of claim 1 wherein a colorant is present in the transfer coating layer. 8. A delivery strip as claimed in claim 7, wherein the colorant is a pigment. 9. A delivery strip as claimed in claim 8, wherein for the purpose of modification the pigment is a pigment with a good covering powder. 9. A delivery strip as claimed in claim 8, wherein for the purpose of labeling the pigment is an inorganic or organic pigmented pigment. 8. A delivery strip as claimed in claim 7, wherein the colorant is a fluorescent fuel to emphasize the textual and pictorial representations of the text. The delivery strip of claim 1, wherein when incorporating the basic pigment, the delivery coating contains a rake. The transfer strip of claim 1 wherein the thickness ratio of the contact adhesive coating layer to the delivery coating layer is from 1: 4 to 1:12. The transfer strip of claim 13 wherein the thickness ratio is from 1: 8 to 1:10. The method of manufacturing the multi-layer flexible transfer strip of claim 1, wherein the plastic solution containing the stripping aid in the form of a soluble cellulose derivative is applied to the flexible carrier by conventional application techniques and at elevated temperature. The solvent is evaporated, and then the aqueous acid solution containing the contact adhesive is applied to the formed transfer coating layer by conventional coating techniques, followed by evaporation of the water. Use of the transfer strip of claim 1, wherein the transfer strip is used in a hand-wound form in a wound form.