DE2010831A1 - Magnetic generation of patterns on surface layers - Google Patents

Abstract

Generation of patterns in coatings of ceramic material, enamel, dye solution with or without binders, also pastes, lacquer, paint containing magnetic constituents is effected by exposure of the applied layer, prior to setting to magnetic fields which align the magnetic constituents so as to form a pattern conforming to the force fields of the magnets which have been arranged accordingly. In the prefd versions the magnetic materials consist either of ferromagnetic powders or of oxides. The magnets are arranged either on a plate or on a roll. Permanent or electro magnets may be employed. The base on which the layer is applied may be a ferromagnetic metal or a non-magnetic metal, paper, cardboard or plastic and the field may be applied from underneath or from above.

Description

Method and device for manufacturing. of patterns in coatings The invention relates to a method for producing patterns in coatings ceramic material, enamel, dye solutions with or without binders as well Pastes, lacquers and lacquer paints. Patterns of this kind are geometrically arranged areas in different grain, brightness, reflectivity, structure, etc.

The inventive method is particularly useful for generating patterns used to beautify surfaces and make them particularly aesthetic Effects can be achieved.

It is already a method and apparatus for manufacture of patterns when painting Plächen has been proposed in which a paint with magnetic components under the action of magnetic fields on the The surface to be painted is applied.

The present invention is based on the object of a method and to provide an apparatus for making patterns generally in coating layers can be applied with the help of magnetic effects.

The aforementioned object is achieved according to the invention in that a coating material containing magnetic components is used, its application layer in its uncured state, in which the magnetic Components are still movable, exposed to the action of magnetic fields and is then cured. Before, during or after the application of the layer on the The object can contain the magnetic components that make up the ceramic material Color solutions etc. are mixed in, moved by the action of magnetic fields will. In the implementation of the inventive method / become a Image of the magnetic fields in or above the surface to be coated and generate thus differences in color, brightness, reflectivity and / or application thickness. Through the further treatment of the objects in enamelling, e.g.

Drying out of the binding agent, heating up, melting down, cooling down and When hardening, the patterns are fixed in the layer.

According to the fire, it is particularly advantageous if the ceramic Powdered material exposed to magnetic fields, then melted and is cured.

According to the invention, it is also advantageous if the ceramic material in pulp form exposed to the action of magnetic fields, then melted and hardened will. While the action of the magnetic fields contained in the layer magnetic components in dye solutions, lacquers and lacquer paints, pastes and the like can move easily, there are certain things when enamelling Difficulties that can be solved with the inventive method. If, for example, the enamel has been applied to the object in powder form, then you can arranging the magnets under or over the surface to be enamelled lead to that the fields arrange the magnetic components in the desired pattern, color admixtures in the enamel powder, which do not have to be magnetic, are also in this way move along that after completion of the object, i.

after the enamel layer has hardened, a colored pattern appears.

Often, however, the ceramic material is applied to the object in the form of a slurry applied, i.e. the enamel powder is mixed with a binding agent, e.g. water, mixed. It is easily recognized by those skilled in the art that the viscosity of the Porridges must keep so low that the magnetic fields of the device available to him are able to move the magnetic components more or less strongly, so that patterns arise.

It is useful according to the invention; if as magnetic components ferromagnetic components, especially iron, nickel, cobalt or alloys or compounds of these elements can be used. It is also beneficial to oxides to be used as magnetic components. Paramagnetic, diamagnetic elements or compounds; e.g. manganese oxide or manganese dioxide as paramagnetic substances that are inexpensive commercially available.

Of course, rare earths can also be used.

Bismuth, especially the inexpensive one, is considered to be a diamagnetic substance Graphite, to name a few.

The method according to the invention is particularly advantageous if against the opposite side of the surface to be coated or coated Magnet is moved, which has magnetic fields with the patterns to be generated and the movable components in the applied layer corresponding to the force fields arranges, and the layer is then cured. Here you can find the Items see B. be placed on base plates with alternating north- and the south pole were magnetized parallel to each other and parallel to an edge; ee can auoh rosette-shaped Areas in a flat plate be magnetized. The arrangement of magnetic rods and parts is also beneficial to letters, numbers, characters, ornaments or the like.

The method according to the invention is very versatile if one considers that the effect of the magnetic fields regardless of the type how the layer is applied to the object leads to success. Rightly Effective effects are achieved with simple means.

A particularly expedient embodiment of the inventive method consists in that the objects to be coated are made of ferromagnetic material, in particular sheet iron exist. According to the invention, the to be coated Objects also made of non-magnetic material, in particular plastic, cardboard or Made of paper. Even non-ferrous metals, wood, press plates, ceramics and glass are considered to be too coating objects suitable. Thus it is possible to create patterns in a simple way e.g. to be transferred to printed matter, wallpaper or other decorative material.

A useful embodiment of the invention is that against the surface to be coated or coated is moved by a magnet, the magnetic fields with the patterns to be generated and the movable magnetic components in the applied layer according to the - Arranges force fields, and the layer is then cured.

So if the object is freshly coated, if the magnetic Components are still easily movable, then one or numerous magnets moved towards the object. At a certain distance they are stopped, and the magnetic fields are now allowed to work.

These pull the magnetic components in the direction of the lines of force. The magnetic components in turn tear color or pigment particles as they migrate with, which may leave traces. The result is a color sample with special aesthetic effect. These effects are common, previously known Process not achievable.

It is preferred according to the invention if on the object to be coated first the coating material is applied, the object then having the pattern Exposed to magnetic fields and then the layer is cured.

It is advantageous according to the invention if a coated tape with applied, uncured layer above or below a magnet having Roller, belt or bar and then the layer is cured. To this Way can be applied, for example, to wallpaper or other tape-like materials Apply pattern in certain repetitions. The tape having the magnetic patterns runs along a path parallel to the observed band, in order to the magnetic components in the layer have time to align with the field lines remain. The inventive method thus easily allows one more or less thorough automation of the corresponding production.

The device for carrying out the method is according to the invention particularly characterized by a permanent magnet for generating magnetic patterns. By using the rod-shaped permanent magnets described above, the pattern on paper, plastic and the like, but also sheet metal, can be produced quickly and easily will.

Even greater possible combinations for producing the ones described above Patterns result from the fact that, according to the invention, an electromagnet is used to generate it magnetic pattern used.

If especially when using large or heavy Iron sheets Difficulty removing iron sheets after magnetization consist of the magnets, thereby impeding the method according to the invention could occur, then according to a further proposal of the invention, a switchable one To use permanent magnet or electromagnet to generate the magnetic pattern. the Magnets can now be switched on and the polarity reversed after the pattern has been completed or switched off, ed that removal is even larger or more difficult Iron sheet is possible.

Another advantageous embodiment of the invention consists in that the magnets are arranged in a surface at a distance from each other and by a Investment material are fixed.

In this way, in a simple and advantageous manner, in a wide variety of ways Pattern to be made. For example, flat, flexible permanent magnets are made Strips, triangles or other patterns cut out and with elongated, strip-shaped, flexible permanent magnets and / or with small metallic permanent magnets in ring or rectangular shape combined into a pattern. These patterns are then e.g. in a fusible, cold-hardening or other investment material placed and fixed in it.

The magnetic lacquer and the dye solutions can be different Applied in a way, e.g. by painting, spraying, printing or screen printing, as well as in the casting process. The last-mentioned process is mainly used with polyester material Use.

Further advantages, features and possible uses of the invention result from the following description together with the drawings.

They show: Fig. A magnetic plate with a striped pattern, Fig. 2 shows the image of a rosette-shaped pattern on an iron surface and FIG. 3 shows a Sample magnetic plate in plan view.

A permanent magnetic plate is used to generate the magnetic field, in the known way - similar to the production of permanent magnets - a pattern of alternating polarity strips is magnetized. The plate 1 has north and south poles arranged in strips, which are parallel to one another and are arranged parallel to the longitudinal edge of the plate 1. On the plate 1 is a part 2 to be coated is placed. The magnetic field lines take hold the part 2 through and each run in an arc from north to south. They run away from one strip-shaped pole to the other. The part 2 is now for example with coated with an enamel powder containing magnetic, e.g. ferromagnetic, components contains. These are arranged according to the magnetic field lines from and to the strip-shaped poles. Now the powdery enamel is on high temperature brought, melted and then hardened.

A peculiar pattern in the form of stripes has emerged, which the magnetic image used with differences in color, brightness, reflection and / or height reproduce.

Enamel suitable for performing the procedure is on cheap Way to produce. For example, 34 parts are borax, 28 parts are feldspar, 5 parts Fluorspar, 20 parts quartz, 6 parts Soda, 5 parts NaN03, 1.5 parts Manganese oxide and 0.5 parts of nickel oxide can be used, 1 to 20% of which are magnetic Components, e.g. fine iron or steel powder are added. It can also the iron red contained in the enamel as a magnetic component be used.

Suitable paints, i.e. magnetic paints are on different bases, E.g. the nitro combination base, the stoving base and the two-component base can be produced. According to the nitro combination base, 16 parts of collodion wool E 510 are moistened with butanol with 28 parts of butyl acetate, 5 parts of methyl glycol, 15 parts of xylene, 20 parts of polyacrylic ester 4 F, 50% i. Butyl acetate, 2 parts of finely divided silica as a sedimentation inhibitor and 14 parts chrome-nickel steel.

After the baking process, 35 parts of alkyd resin with 12 parts of urea resin, 6 parts of melamine resin, 2 parts of methyl glycol, 3 parts of methyl glycol acetate, 1 part Silicone oil, 21 parts bentonite paste 15 percent and 20 parts Cr-Ni steel 18/8 scheduled. These bases are tinted with zapon dyes or pigments.

If you use the two-component DD-Bass, parts of the bO parts are main lacquer silver gray with 20 parts isoeyanatcopolynerisat 75 percent. This results in the main paint by mixing 70 parts of the colorless base paint with 20 parts Cr-Ni Steel 18/8, 8 parts of aluminum powder paste and 2 parts of finely divided silica. The colorless base paint is obtained by adding 13 parts of polyester-alkyd resin 85 ffi with 25 parts of alkyd resin 60% i. Xylene, 12 parts methyl glycol acetate, 9 parts Methoxybutyl acetate, 9 parts of butyl acetate, 12 parts of toluene and 20 parts of ethyl acetate.

Anti-settling agents are mixed in during the manufacture of the so-called varnishes. Their addition is coordinated so that the thixotropy is not too great, because the anti-settling agents act according to the color precipitation on the surfaces against magnetic field lines. This desired deposition effect must not be too small be.

Lists also include plastic batches, among other things. To the Example, PVC pens have been used successfully.

With the method according to the invention, all patterns can be represented that can be applied by magnets, magnetic plates or magnet systems.

In Pig. 2 is the six-pole, face-side magnetization of a ring magnet made of barium ferrite. The course and the range of the magnetic field are shown here can be seen very clearly. Fig. 3 shows a magnetic disk with which a specific Pattern can be produced. In an investment 3 are elongated, made of a flexible Permanent magnets cut out strips 4 and at certain intervals poured and fixed by these metal magnetic particles 5.

The metal magnets can be, for example, ring-shaped or rectangular-shaped.

Those provided with the new and aesthetically peculiar patterns Surfaces can be used for household appliances, also for the cladding of cash boxes, generally of facades and also useful for the furniture and glass and ceramic industries, especially for the production of ceramic tiles.

With one and the same magnet or magnet system, depending on the Type and thickness of the material to be coated or depending on the Abatand between the material just coated and the magnet above or below it make different patterns. The rosette can also be used on a relatively thin sheet of metal apply according to FIG. Among the self-contained, circular ones The poles are located in certain areas. If you remove the one to be observed, see B. to The surface to be enamelled or to be painted further away from the magnet, e.g. by enlarging the distance between the surfaces coated with enamel powder or enamel paste and the magnet or when painting by using a 2 cm thick wooden plate, behind which the magnet is arranged, then is the circumference of the aforementioned sub-areas no longer as sharply drawn as in Fig. 2. The bright Beretohe customers in tinted or even fading into dark areas.

Claims (15)

PATENT CLAIMS 0 Process for the production of patterns in coatings made of ceramic Material, enamel, dye solutions with or without binders as well as pastes, lacquers and lacquer paints, characterized in that a Coating material is used, its application layer in its uncured State in which the magnetic components can still be moved, the effect exposed to magnetic fields and then cured. 2. The method according to claim 1, characterized in that the ceramic Powdered material exposed to magnetic fields, then melted and is hardened, 3. The method according to claim 1 or 2, characterized in that that the ceramic material in pulp form is exposed to the action of magnetic fields, then melted and hardened. 4. Process according to Claims 1 to 3, characterized in that as magnetic components ferromagnetic Beatand parts, in particular iron, N1ew cobalt or alloys or compounds of these elements can be used. 5. Process according to claims 1 to 4, characterized in that that oxides are used as magnetic components. 6. The method according to claims 1 to 5, characterized in that that against the opposite of the surface to be coated or the coated surface Side a magnet is moved, the magnetic fields with the patterns to be generated and the movable magnetic components in the coated layer according to the force fields, and the layer is then cured. 7. The method according to claims 1 to 6, characterized in that that the objects to be coated made of ferromagnetic material, in particular Iron sheet, consist. 8. The method according to claims 1 to 7, characterized in that that the objects to be coated are made of non-magnetic material, in particular Made of plastic, cardboard or paper. 9. The method according to claims 1 to 8, characterized in that that a magnet is moved against the surface to be coated or coated, the magnetic fields with the patterns to be sucked up and activated magnetic Arranges components in the applied layer according to the force fields, and the layer is then cured. 10. The method according to claims 1 to 9s, characterized in that the coating material is first applied to the object to be coated, the object is then exposed to the pattern-generating magnetic fields and then the Layer is cured. 11. The method according to claims 1 to 10, characterized in that that a coated tape with an applied, uncured layer over or passed under a roller, belt or bar that has magnets and then the layer is cured. 12. Device for carrying out the method according to claim 11, characterized by permanent magnets for generating magnetic patterns. 13. The apparatus according to claim 12, characterized by electromagnets for generating magnetic patterns. 14. The device according to claim 12 or 13, identified by Switchable permanent or electromagnetic magnets for generating the magnetic patterns. 15. Device according to claims 12 to 14, characterized in that that the magnets are arranged in a surface at a distance from each other and through a sin-bed mass are fixed. L e r s e i t e