EP1095112A1 - Magnetic coating, coating method using said coating and implementing device - Google Patents

Magnetic coating, coating method using said coating and implementing device

Info

Publication number
EP1095112A1
EP1095112A1 EP99929425A EP99929425A EP1095112A1 EP 1095112 A1 EP1095112 A1 EP 1095112A1 EP 99929425 A EP99929425 A EP 99929425A EP 99929425 A EP99929425 A EP 99929425A EP 1095112 A1 EP1095112 A1 EP 1095112A1
Authority
EP
European Patent Office
Prior art keywords
coating
binder
ferromagnetic
support
magnetization
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP99929425A
Other languages
German (de)
French (fr)
Inventor
Claude Texier
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
STTM
Original Assignee
STTM
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by STTM filed Critical STTM
Publication of EP1095112A1 publication Critical patent/EP1095112A1/en
Withdrawn legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F41/00Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
    • H01F41/14Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for applying magnetic films to substrates
    • H01F41/16Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for applying magnetic films to substrates the magnetic material being applied in the form of particles, e.g. by serigraphy, to form thick magnetic films or precursors therefor
    • CCHEMISTRY; METALLURGY
    • C09DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
    • C09DCOATING COMPOSITIONS, e.g. PAINTS, VARNISHES OR LACQUERS; FILLING PASTES; CHEMICAL PAINT OR INK REMOVERS; INKS; CORRECTING FLUIDS; WOODSTAINS; PASTES OR SOLIDS FOR COLOURING OR PRINTING; USE OF MATERIALS THEREFOR
    • C09D7/00Features of coating compositions, not provided for in group C09D5/00; Processes for incorporating ingredients in coating compositions
    • C09D7/40Additives
    • C09D7/60Additives non-macromolecular
    • C09D7/61Additives non-macromolecular inorganic
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08KUse of inorganic or non-macromolecular organic substances as compounding ingredients
    • C08K3/00Use of inorganic substances as compounding ingredients
    • C08K3/18Oxygen-containing compounds, e.g. metal carbonyls
    • C08K3/20Oxides; Hydroxides
    • C08K3/22Oxides; Hydroxides of metals

Definitions

  • the present invention relates mainly to a magnetic coating, to a method of coating external surfaces, in particular sheet materials, and to a coating machine implementing said method.
  • a method according to the present invention comprising a step of mixing the ferromagnetic particles with a binder, typically a paint or an adhesive.
  • a binder typically a paint or an adhesive.
  • the mixture (heavy, liquid or pasty) is homogenized before coating a support. If, in addition, it is desired to obtain a magnetized surface, a magnetic field is applied to the coated support comprising ferromagnetic particles capable of remaining magnetized when they are no longer subjected to an external magnetic field.
  • the main object of the invention is a coating, capable of being spread substantially evenly over a surface, comprising a binder, characterized in that it also comprises a ferromagnetic constituent, in particular an iron oxide.
  • said binder is an adhesive, in particular a hot-melt adhesive.
  • said coating comprises substantially two parts by weight of hot-melt adhesive and six parts by weight of iron oxide.
  • said binder is a paint.
  • the subject of the invention is also a method of coating a surface, characterized in that it comprises the following steps: a) coating a support, in particular cardboard, with a layer of constant or substantially thickness constant with a coating according to the invention comprising a binder and a ferromagnetic constituent, in particular an iron oxide; and b) taking the plaster spread on the surface.
  • the coating step is carried out in the presence of a coating comprising a ferromagnetic charge corresponding to 200 to 850 g per square meter of iron oxide, preferably substantially equal to 800 g per square meter of iron oxide.
  • it further comprises a step c) of magnetization of the ferromagnetic charge of the coating.
  • step c) of magnetization of the ferromagnetic charge is advantageously prior to step b) of setting the binder of the coating and the magnetic field of magnetization is strong enough to ensure orientation magnetic particles in the binder before it sets.
  • the invention also relates to a coating machine for implementing the method according to the invention, characterized in that it comprises means 11 for coating a support 9, in particular cardboard, with a coating according to the invention, said machine comprising means for heating a hot-melt adhesive and applying it to said support 9.
  • said machine further comprises a magnet 15 for the magnetization of the coating layer.
  • FIG. 1 is a diagram illustrating the preferred embodiment of the method according to the present invention
  • - Figure 2 is a schematic side view of a coating machine according to the present invention.
  • a binder is typically mixed, a paint or an adhesive with ferromagnetic particles forming a charge in the binder.
  • a paint is used if the coating according to the present invention must be visible on its support. It is understood that the ferromagnetic particles can modify the color of the paint. If this effect is not desired, it is possible to use a paint according to the present invention comprising a ferromagnetic filler as undercoat and first layer and then cover it with one or more layers of paint devoid of the ferromagnetic charge.
  • the binder is an adhesive. Any type of glue compatible with the ferromagnetic charge used and with the coating support can be used.
  • the glue makes it possible to adhere a support material to the support.
  • sheet such as for example a sheet of paper decorated or not, a plastic film or the like.
  • adhesives in dispersion in particular acrylic, vinyl acetate, vinyl acetate-ethylene copolymer or acrylic styrene, adhesives in solution of the vinyl acetate, acrylic or acrylic styrene type, vegetable adhesives in particular of the starch, dextrin type. or casein or, advantageously hot-melt adhesives (Hotmelt in English terminology) produced in particular on an ethylene vinyl acetate, ethylene acrylic, polyolefin, styrene butadiene or styrene isoprene basis.
  • the temperature of implementation of hot-melt adhesives, at the time of magnetization must be lower than the Curie temperature of the ferromagnetic material used.
  • any ferromagnetic material capable of exhibiting the desired particle size and the stability, in particular chemical, over time can be used.
  • soft iron, hardened iron, ferrite, any iron oxide, ferromagnetic rare earths, samarium, barium or cobalt can be used.
  • shielding with electromagnetic radiation, it is advantageous to ensure a sufficient charge of ferromagnetic particles to make the coating according to the present invention conductive, at least at the frequencies which it is desired to eliminate.
  • non-ferromagnetic conductive particles for example copper, are used in addition to or in place of the ferromagnetic particles to form a shield or Faraday cage.
  • Such shielding makes it possible to protect electronic equipment, in particular telecommunications equipment and computer equipment, from external disturbances as well as indiscretions by preventing listening to the electromagnetic signals emitted by this type of equipment in operation.
  • iron particles are used which are covered with a corrosion protection material, for example with a layer of cobalt. It is also possible to use chromium, chromium oxide as well as the particles used for coating magnetic tapes.
  • the maximum amount of ferromagnetic filler capable of being accepted by the binder is used, for example six units by weight of ferromagnetic powder for two units by weight of binder.
  • 200 g to 850 g of iron oxide are deposited per square meter of cardboard, for example 800 g per square meter.
  • the ferromagnetic powder has a low granularity so as to obtain a smooth surface state. Excellent results have been obtained with iron oxide, the particle size of which was equal to 24 ⁇ m, the lower particle sizes also being suitable. If the grainy surface condition is acceptable, larger particle sizes can be used, for example between 25 and 300 ⁇ m.
  • the ferromagnetic particles are spherical or substantially spherical.
  • the ferromagnetic particles have the form of elongated rods.
  • the binder is mixed with the ferromagnetic powder. This mixing can be carried out with a binder in liquid or pasty form. In this case, a perfectly homogeneous mixture can be obtained. As a variant, the mixing takes place between solid particles. In such a case, it is advantageous, as illustrated in 3, to subsequently carry out a homogenization, for example after melting a hot-melt adhesive.
  • the coating is carried out on a support.
  • a support can be a sheet support, such as paper or cardboard, plastic plates or the like. It can be used in particular for coating cardboard for making puzzles, game boards, books, tables, wallpaper or the like. It may also be volume elements which receive the coating according to the present invention on at least part of their external surface such as, for example, walls, partitions or the like.
  • the coating according to the present invention is an adhesive, a surface element is placed on the surface to be bonded, for example paper containing the desired patterns. If the product must be magnetized, it is subjected, at 6, to a magnetic field induced by permanent magnets or advantageously by an electromagnet.
  • a first face of the support receives a non-magnetized coating, the opposite face receiving a coating capable of being magnetized.
  • the two faces receive a coating which is subsequently permanently magnetized.
  • the magnetization can be carried out by magnetically polarizing particles taken in a binder without displacement of these particles, either because the magnetic field does not have a sufficient intensity, or because the glue is already dry and opposes migration or the orientation of the particles.
  • the coating according to the present invention is subjected to an intense magnetic field before the adhesive is closed, that is to say before the particles are immobilized so as to ensure its orientation in the magnetic field , then when the glue is closed, their immobilization in this position corresponding to a strong remanent magnetic field.
  • This variant is particularly advantageous in the case of the use of magnetic powder composed of particles in the form of rods.
  • FIG 2 there is schematically shown a device for gluing and magnetizing the cardboard.
  • the device shown is a single-sided device, it being understood that the double-sided devices do not depart from the scope of the present invention.
  • the cardboard 9 runs under a machine 11 for dispensing hot-melt adhesive.
  • the machine 11 may be a nozzle type of machine or, preferably, a roll-type machine, such as a machine including a 3960 generator Multiscan ® sold by Nordson connected by automatic heating pipes 2 m 40 to automatic pistols marketed by this Company under the reference H20.
  • the fluid coating (hot in the case of hot-melt adhesive) is introduced, for example, between two rollers and flows through a calibrated space. formed between these rollers.
  • the hot glue containing the ferromagnetic particles is deposited on the cardboard 9 scrolling along arrow 13 at a speed for example between 20 and 250 m / min., Preferably between 30 and 150 m / min.
  • the coated cardboard passes through the air gap of a magnet or electromagnet 15 generating a substantially uniform magnetic field over the entire width of the cardboard .
  • the coating according to the present invention has a temperature below the Curie temperature of the material forming the ferromagnetic particles.
  • a permanent magnet is used, for example, generating a magnetic field of 0.4 Teslas over an area equal to 1.10 ⁇ 0.70 m.
  • an air-cooled or water-cooled electromagnet is used, for example generating a magnetic field substantially equal to 0.5 Teslas.
  • the viscosity of the coating according to the present invention at the level of the elements 15 as well as the amplitude of the magnetic field are such that the migration of the magnetic particles outside the binder and their sticking in the air gap of the elements 15 are avoided.
  • guide means prevent the cardboard 9 covered with the coating according to the present invention from sticking to one of the poles of the magnet 15.
  • the device of FIG. 2 further comprises means for depositing (not shown) a sheet element, typically made of paper, intended to cover the surface of the cardboard.
  • a sheet element typically made of paper
  • the paper can have various prints and can be deposited before or after the magnetic field is applied by the magnet 15.
  • the device of Figure 2 advantageously comprises means for cutting the cardboard 9 (not shown). It is understood that the present invention is not limited to continuous sizing means but also applies to discontinuous sizing means, sheet laminated. A machine glues, for example, 90 cartons per minute, each carton having an area of 40 cm by 55 cm.
  • the zone magnetization can be obtained by air gaps of the magnet 15 having the shape of the desired zones either by using a set of electromagnets arranged in a matrix and by feeding only the electromagnets located opposite the zones to magnetize.
  • the method according to the invention also makes it possible to adapt the thickness of the coating as a function of the grammage of the two sheets to be bonded. For example, laminating a sheet weighing 90 g to a sheet of the same thickness or thicker requires approximately 90 to 120 g of plaster.
  • the magnetized coating of the magnet can also be adapted under the same conditions. In other words, the thickness of the coating can be perfectly adapted to the aesthetic effect, of weight, of magnetization force and of economic cost which it is desired to give.
  • the present invention applies to the production of games, in particular puzzles, board games, educational games, wall coverings allowing the removable fixing (by magnets) of decorative or signaling elements, and the like.
  • the present invention applies mainly to stationery and building.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Power Engineering (AREA)
  • Manufacturing & Machinery (AREA)
  • Inorganic Chemistry (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Materials Engineering (AREA)
  • Wood Science & Technology (AREA)
  • Organic Chemistry (AREA)
  • Application Of Or Painting With Fluid Materials (AREA)
  • Paints Or Removers (AREA)
  • Paper (AREA)

Abstract

The invention concerns a coating capable of being spread substantially evenly on a surface, comprising a binder and a ferromagnetic constituent, in particular iron oxide. The invention also concerns a method for coating a surface with said coating and a coating machine for implementing the method, comprising means (11) for coating a support (9), in particular cardboard with said coating, said machine comprising means for heating a hot-melt adhesive and applying it on said support (9). The invention is applicable in the paper-making and building industries.

Description

ENDUIT MAGNETIQUE, PROCEDE D'ENDUCTION METTANT EN OEUVRE UN TEL ENDUIT ET DISPOSITIF POUR LA MISE EN OEUVRE DUMAGNETIC COATING, COATING METHOD USING SUCH A COATING AND DEVICE FOR IMPLEMENTING THE SAME
PROCEDEPROCESS
La présente invention se rapporte principalement à un enduit magnétique, à un procédé d'enduction de surfaces externes, notamment des matériaux en feuilles, et à une machine d'enduction mettant en oeuvre ledit procédé.The present invention relates mainly to a magnetic coating, to a method of coating external surfaces, in particular sheet materials, and to a coating machine implementing said method.
Il est connu de munir divers objets d'une surface aimantée pour permettre leur fixation provisoire sur un support ferromagnétique telles que porte de réfrigérateur, porte blindée ou analogues. D'autre part, on a utilisé des plaques de fer comme supports de jeux contenant des pièces aimantées tels que les jeux d'échecs. Malheureusement, la plupart des surfaces comme les murs, les éléments en carton ou analogues ne sont pas capables de retenir des aimants. De même, on ne dispose pas de manière courante de supports magnétiques souples susceptibles d'être roulés ou plies.It is known to provide various objects with a magnetic surface to allow their temporary fixing on a ferromagnetic support such as refrigerator door, armored door or the like. On the other hand, iron plates were used as game supports containing magnetic pieces such as chess games. Unfortunately, most surfaces like walls, cardboard items, or the like are not able to hold magnets. Likewise, flexible magnetic supports that can be rolled or folded are not currently available.
C'est par conséquent un but de la présente invention d'offrir un procédé permettant de conférer des propriétés ferromagnétiques à tous supports et notamment aux papier, carton, feuilles de matière plastique souple ou rigide, papier peint, murs et autres.It is therefore an object of the present invention to provide a method for imparting ferromagnetic properties to all supports and in particular to paper, cardboard, sheets of flexible or rigid plastic material, wallpaper, walls and others.
C'est également un but de la présente invention d'offrir un procédé pour aimanter de tels supports.It is also an object of the present invention to provide a method for magnetizing such supports.
C'est aussi un but de la présente invention d'offrir un blindage électromagnétique assurant d'une part le confinement des ondes électromagnétiques émises dans une pièce et, d'autre part limitant la pénétration d'ondes électromagnétiques dans cette pièce.It is also an object of the present invention to provide electromagnetic shielding ensuring on the one hand the confinement of the electromagnetic waves emitted in a room and, on the other hand limiting the penetration of electromagnetic waves in this room.
C'est également un but de la présente invention d'offrir de tels procédés présentant un faible coût de revient.It is also an object of the present invention to offer such methods having a low cost price.
Ces buts sont atteints par un procédé selon la présente invention comportant une étape de mélange des particules ferromagnétiques avec un liant, typiquement une peinture ou une colle. Avantageusement le mélange (pondéreux, liquide ou pâteux) est homogénéisé avant l'enduction d'un support. Si de plus on désire obtenir une surface aimantée, on applique un champ magnétique sur le support enduit comportant des particules ferromagnétiques susceptibles de rester aimantées lorsqu'elles ne sont plus soumises à un champ magnétique externe. L'invention a principalement pour objet un enduit, susceptible d'être étalé sensiblement régulièrement sur une surface, comportant un liant, caractérisé en ce qu'il comporte en outre un constituant ferromagnétique, notamment un oxyde de fer. Selon un mode de réalisation avantageux dudit enduit, ledit liant est une colle, notamment une colle thermofusible.These objects are achieved by a method according to the present invention comprising a step of mixing the ferromagnetic particles with a binder, typically a paint or an adhesive. Advantageously, the mixture (heavy, liquid or pasty) is homogenized before coating a support. If, in addition, it is desired to obtain a magnetized surface, a magnetic field is applied to the coated support comprising ferromagnetic particles capable of remaining magnetized when they are no longer subjected to an external magnetic field. The main object of the invention is a coating, capable of being spread substantially evenly over a surface, comprising a binder, characterized in that it also comprises a ferromagnetic constituent, in particular an iron oxide. According to an advantageous embodiment of said coating, said binder is an adhesive, in particular a hot-melt adhesive.
Selon une disposition avantageuse de ce mode de réalisation, ledit enduit comporte sensiblement deux parts en poids de colle thermofusible et six parts en poids d'oxyde de fer. Selon un autre mode de réalisation avantageux dudit enduit, ledit liant est une peinture.According to an advantageous arrangement of this embodiment, said coating comprises substantially two parts by weight of hot-melt adhesive and six parts by weight of iron oxide. According to another advantageous embodiment of said coating, said binder is a paint.
L'invention a également pour objet un procédé d'enduction d'une surface, caractérisé en ce qu'il comporte les étapes suivantes : a) enduction d'un support, notamment du carton, d'une couche d'épaisseur constante ou sensiblement constante avec un enduit selon l'invention comportant un liant et un constituant ferromagnétique, notamment un oxyde de fer ; et b) prise de l'enduit étalé sur la surface.The subject of the invention is also a method of coating a surface, characterized in that it comprises the following steps: a) coating a support, in particular cardboard, with a layer of constant or substantially thickness constant with a coating according to the invention comprising a binder and a ferromagnetic constituent, in particular an iron oxide; and b) taking the plaster spread on the surface.
Selon un mode de mise en oeuvre avantageux dudit procédé, l'étape d'enduction est effectuée en présence d'un enduit comportant une charge ferromagnétique correspondant à 200 à 850 g au mètre carré d'oxyde de fer, de préférence sensiblement égal à 800 g au mètre carré d'oxyde de fer.According to an advantageous embodiment of said method, the coating step is carried out in the presence of a coating comprising a ferromagnetic charge corresponding to 200 to 850 g per square meter of iron oxide, preferably substantially equal to 800 g per square meter of iron oxide.
Selon un autre mode de mise en oeuvre avantageux dudit procédé, il comporte en outre une étape c) d'aimantation de la charge ferromagnétique de l'enduit.According to another advantageous embodiment of said method, it further comprises a step c) of magnetization of the ferromagnetic charge of the coating.
Conformément à l'invention, l'étape c) d'aimantation de la charge ferromagnétique est avantageusement antérieure à l'étape b) de prise du liant de l'enduit et le champ magnétique d'aimantation est suffisamment fort pour assurer l'orientation des particules magnétiques dans le liant avant la prise de celui-ci.According to the invention, step c) of magnetization of the ferromagnetic charge is advantageously prior to step b) of setting the binder of the coating and the magnetic field of magnetization is strong enough to ensure orientation magnetic particles in the binder before it sets.
L'invention a également pour objet une machine d'enduction pour la mise en oeuvre du procédé selon l'invention, caractérisée en ce qu'elle comporte des moyens 11 d'enduction d'un support 9, notamment du carton, avec un enduit selon l'invention, ladite machine comportant des moyens de chauffage d'une colle thermofusible et de son application sur ledit support 9.The invention also relates to a coating machine for implementing the method according to the invention, characterized in that it comprises means 11 for coating a support 9, in particular cardboard, with a coating according to the invention, said machine comprising means for heating a hot-melt adhesive and applying it to said support 9.
Selon un mode de réalisation avantageux de ladite machine, elle comporte en outre un aimant 15 pour l'aimantation de la couche d'enduit. La présente invention sera mieux comprise au moyen de la description ci-après et des figures annexées données comme des exemples non limitatifs et sur lesquelles :According to an advantageous embodiment of said machine, it further comprises a magnet 15 for the magnetization of the coating layer. The present invention will be better understood by means of the description below and the appended figures given as nonlimiting examples and in which:
- la figure 1 est un diagramme illustrant l'exemple préféré de réalisation du procédé selon la présente invention ; - la figure 2 est une vue schématique de côté d'une machine d'enduction selon la présente invention.- Figure 1 is a diagram illustrating the preferred embodiment of the method according to the present invention; - Figure 2 is a schematic side view of a coating machine according to the present invention.
Sur la figure 1 , on peut voir le principe du procédé selon la présente invention.In Figure 1, we can see the principle of the method according to the present invention.
En 1 , on effectue le mélange d'un liant typiquement une peinture ou une colle avec des particules ferromagnétiques formant une charge dans le liant. On emploie une peinture si l'enduit selon la présente invention doit être apparent sur son support. Il est bien entendu que les particules ferromagnétiques peuvent modifier la couleur de la peinture. Si cet effet n'est pas désiré, il est possible d'utiliser une peinture selon la présente invention comportant une charge ferromagnétique comme sous-couche et première couche et de la recouvrir ensuite par une ou plusieurs couches de peinture dépourvue(s) de la charge ferromagnétique.In 1, a binder is typically mixed, a paint or an adhesive with ferromagnetic particles forming a charge in the binder. A paint is used if the coating according to the present invention must be visible on its support. It is understood that the ferromagnetic particles can modify the color of the paint. If this effect is not desired, it is possible to use a paint according to the present invention comprising a ferromagnetic filler as undercoat and first layer and then cover it with one or more layers of paint devoid of the ferromagnetic charge.
En variante avantageuse, le liant est une colle. On peut utiliser tout type de colle compatible avec la charge ferromagnétique employée et avec le support d'enduction.In an advantageous variant, the binder is an adhesive. Any type of glue compatible with the ferromagnetic charge used and with the coating support can be used.
La colle permet de faire adhérer au support un matériau en . feuille, comme par exemple une feuille de papier décorée ou non, un film plastique ou analogues.The glue makes it possible to adhere a support material to the support. sheet, such as for example a sheet of paper decorated or not, a plastic film or the like.
On peut par exemple utiliser des colles en dispersion notamment acrylique, acétate de vinyle, copolymère acétate de vinyl-éthylène ou styrène acrylique, les colles en solution du type acétate de vinyle, acrylique ou styrène acrylique, des colles végétales notamment du type amidon, dextrine ou caséine ou, avantageusement des colles thermofusibles (Hotmelt en terminologie anglo-saxonne) réalisées notamment sur une base éthylène acétate de vinyle, éthylène acrylique, polyoléfine, styrène butadiene ou styrène isoprène. Il est bien entendu que pour des supports devant être aimantés, la température de mise en oeuvre de colles thermofusibles, au moment de l'aimantation, doit être inférieure à la température de Curie du matériau ferromagnétique employé. Pour un matériau ne devant pas présenter de rémanence, tout matériau ferromagnétique susceptible de présenter la granulométriê désirée et la stabilité, notamment chimique, dans le temps peut être employé. On peut par exemple employer du fer doux, du fer trempé, de la ferrite, tout oxyde de fer, des terres rares ferromagnétiques, du samarium, du baryum ou du cobalt.It is possible, for example, to use adhesives in dispersion, in particular acrylic, vinyl acetate, vinyl acetate-ethylene copolymer or acrylic styrene, adhesives in solution of the vinyl acetate, acrylic or acrylic styrene type, vegetable adhesives in particular of the starch, dextrin type. or casein or, advantageously hot-melt adhesives (Hotmelt in English terminology) produced in particular on an ethylene vinyl acetate, ethylene acrylic, polyolefin, styrene butadiene or styrene isoprene basis. It is understood that for supports to be magnetized, the temperature of implementation of hot-melt adhesives, at the time of magnetization, must be lower than the Curie temperature of the ferromagnetic material used. For a material which must not have persistence, any ferromagnetic material capable of exhibiting the desired particle size and the stability, in particular chemical, over time can be used. For example, soft iron, hardened iron, ferrite, any iron oxide, ferromagnetic rare earths, samarium, barium or cobalt can be used.
Pour obtenir un blindage au rayonnement électromagnétique, il est avantageux d'assurer une charge suffisante en particules ferromagnétiques pour rendre le revêtement selon la présente invention conducteur, au moins aux fréquences que l'on veut éliminer. En variante, on utilise des particules conductrices non ferromagnétiques, par exemple en cuivre, en complément ou à la place des particules ferromagnétiques pour former un blindage ou une cage de Faraday. Un tel blindage permet de protéger des équipements électroniques, notamment des équipements de télécommunications et des équipements informatiques, des perturbations extérieures ainsi que des indiscrétions en empêchant l'écoute des signaux électromagnétiques émis par ce type d'équipements en fonctionnement.To obtain shielding with electromagnetic radiation, it is advantageous to ensure a sufficient charge of ferromagnetic particles to make the coating according to the present invention conductive, at least at the frequencies which it is desired to eliminate. Alternatively, non-ferromagnetic conductive particles, for example copper, are used in addition to or in place of the ferromagnetic particles to form a shield or Faraday cage. Such shielding makes it possible to protect electronic equipment, in particular telecommunications equipment and computer equipment, from external disturbances as well as indiscretions by preventing listening to the electromagnetic signals emitted by this type of equipment in operation.
En variante, on utilise des particules de fer recouvertes par un matériau de protection contre la corrosion, par exemple par une couche de cobalt. On peut également utiliser du chrome, de l'oxyde de chrome ainsi que les particules utilisées pour l'enduction de bandes magnétiques.As a variant, iron particles are used which are covered with a corrosion protection material, for example with a layer of cobalt. It is also possible to use chromium, chromium oxide as well as the particles used for coating magnetic tapes.
Avantageusement, on utilise la quantité maximale de charge- ferromagnétique susceptible d'être acceptée par le liant, par exemple six unités en poids de poudre ferromagnétique pour deux unités en poids de liant. On dépose par exemple 200 g à 850 g d'oxyde de fer par mètre carré de carton, par exemple 800 g par mètre carré.Advantageously, the maximum amount of ferromagnetic filler capable of being accepted by the binder is used, for example six units by weight of ferromagnetic powder for two units by weight of binder. For example, 200 g to 850 g of iron oxide are deposited per square meter of cardboard, for example 800 g per square meter.
Avantageusement, la poudre ferromagnétique présente une faible granularité de manière à obtenir un état de surface lisse. D'excellents résultats ont été obtenus avec de l'oxyde de fer dont la granulométriê était égale à 24 μm, les granulométries inférieures convenant également. Si l'état de surface granuleux est acceptable, on peut utiliser des granulométries supérieures, par exemple comprises entre 25 et 300 μm. Dans un premier exemple de réalisation, les particules ferromagnétiques sont sphériques ou sensiblement sphériques. Dans une variante avantageuse, les particules ferromagnétiques ont la forme de bâtonnets allongés. On effectue le mélange du liant avec la poudre ferromagnétique. Ce mélange peut être effectué avec un liant sous forme liquide ou pâteuse. Dans ce cas, on peut obtenir un mélange parfaitement homogène. En variante, le mélange s'effectue entre particules solides. Dans un tel cas, il est avantageux, comme illustré en 3, d'effectuer par la suite une homogénéisation, par exemple après fusion d'une colle thermofusible.Advantageously, the ferromagnetic powder has a low granularity so as to obtain a smooth surface state. Excellent results have been obtained with iron oxide, the particle size of which was equal to 24 μm, the lower particle sizes also being suitable. If the grainy surface condition is acceptable, larger particle sizes can be used, for example between 25 and 300 μm. In a first embodiment, the ferromagnetic particles are spherical or substantially spherical. In an advantageous variant, the ferromagnetic particles have the form of elongated rods. The binder is mixed with the ferromagnetic powder. This mixing can be carried out with a binder in liquid or pasty form. In this case, a perfectly homogeneous mixture can be obtained. As a variant, the mixing takes place between solid particles. In such a case, it is advantageous, as illustrated in 3, to subsequently carry out a homogenization, for example after melting a hot-melt adhesive.
On va en 5.We go to 5.
En 5, on effectue l'enduction d'un support. Il peut s'agir d'un support en feuilles, tels que du papier ou du carton, des plaques de plastique ou analogues. On peut l'utiliser notamment pour l'enduction de carton pour faire des puzzles, des plateaux de jeux, des livres, des tableaux, du papier peint ou analogues. Il peut s'agir également des éléments volumiques qui reçoivent l'enduit selon la présente invention sur au moins une partie de leur surface externe comme par exemple les murs, les cloisons ou analogues. Si l'enduit selon la présente invention est une colle, on pose sur la surface à encoller un élément de surface comme par exemple du papier comportant les motifs désirés. Si le produit doit être aimanté, on le soumet, en 6, à un champ magnétique induit par des aimants permanents ou avantageusement par un électroaimant.In 5, the coating is carried out on a support. It can be a sheet support, such as paper or cardboard, plastic plates or the like. It can be used in particular for coating cardboard for making puzzles, game boards, books, tables, wallpaper or the like. It may also be volume elements which receive the coating according to the present invention on at least part of their external surface such as, for example, walls, partitions or the like. If the coating according to the present invention is an adhesive, a surface element is placed on the surface to be bonded, for example paper containing the desired patterns. If the product must be magnetized, it is subjected, at 6, to a magnetic field induced by permanent magnets or advantageously by an electromagnet.
Pour des éléments que l'on veut rendre ferromagnétiques, sans aimantation rémanente, on peut utiliser les dispositifs d'enduction de type connu avec collage d'un revêtement de surface sur une ou plusieurs faces du support, typiquement du carton.For elements that are to be made ferromagnetic, without remanent magnetization, it is possible to use coating devices of known type with bonding of a surface coating on one or more faces of the support, typically cardboard.
Il est possible de recouvrir les deux faces d'un support, typiquement d'un carton ou d'une feuille de plastique, avec le revêtement selon la présente invention de manière à permettre l'empilement des pièces.It is possible to cover the two faces of a support, typically of a cardboard or a plastic sheet, with the coating according to the present invention so as to allow the stacking of the parts.
En variante, une première face du support reçoit un revêtement non aimanté, la face opposée recevant un revêtement susceptible d'être aimanté.As a variant, a first face of the support receives a non-magnetized coating, the opposite face receiving a coating capable of being magnetized.
Dans une deuxième variante de réalisation, les deux faces reçoivent un revêtement qui est par la suite aimanté de manière permanente. L'aimantation peut être effectuée en polarisant magnétiquement des particules prises dans un liant sans déplacement de ces particules, soit parce que le champ magnétique n'a pas une intensité suffisante, soit parce que la colle est déjà sèche et s'oppose à la migration ou à l'orientation des particules. Dans une variante avantageuse, le revêtement selon la présente invention est soumis à un champ magnétique intense avant la fermeture de la colle, c'est-à-dire avant l'immobilisation des particules de manière à en assurer l'orientation dans le champ magnétique, puis lors de la fermeture de la colle, leur immobilisation dans cette position correspondant à un champ magnétique rémanent fort. Cette variante est particulièrement avantageuse dans le cas d'utilisation de poudre magnétique composée de particules en forme de bâtonnets. Dans un tel cas, il est particulièrement avantageux d'utiliser une colle thermofusible dont on peut contrôler aisément l'ouverture et la fermeture. Sur la figure 2, on a représenté schématiquement un dispositif d'encollage et d'aimantation du carton. Le dispositif représenté est un dispositif simple face étant bien entendu que les dispositifs double-face ne sortent pas du cadre de la présente invention.In a second alternative embodiment, the two faces receive a coating which is subsequently permanently magnetized. The magnetization can be carried out by magnetically polarizing particles taken in a binder without displacement of these particles, either because the magnetic field does not have a sufficient intensity, or because the glue is already dry and opposes migration or the orientation of the particles. In an advantageous variant, the coating according to the present invention is subjected to an intense magnetic field before the adhesive is closed, that is to say before the particles are immobilized so as to ensure its orientation in the magnetic field , then when the glue is closed, their immobilization in this position corresponding to a strong remanent magnetic field. This variant is particularly advantageous in the case of the use of magnetic powder composed of particles in the form of rods. In such a case, it is particularly advantageous to use a hot-melt adhesive which can easily be opened and closed. In Figure 2, there is schematically shown a device for gluing and magnetizing the cardboard. The device shown is a single-sided device, it being understood that the double-sided devices do not depart from the scope of the present invention.
Le carton 9 défile sous une machine 11 de distribution de colle thermofusible. La machine 11 peut être une machine de type à buse ou, avantageusement, une machine de type à rouleau, comme par exemple une machine comportant un générateur 3960 Multiscan® vendu par la Société NORDSON connecté par des tuyaux chauffants automatiques de 2 m 40 à des pistolets automatiques commercialisés par cette Société sous la référence H20. L'enduit fluide (chaud dans le cas de colle thermofusible) est introduit, par exemple, entre deux rouleaux et s'écoule par un espace calibré . ménagé entre ces rouleaux. La colle chaude contenant les particules ferromagnétiques est déposée sur le carton 9 défilant selon la flèche 13 à une vitesse par exemple comprise entre 20 et 250 m/min., de préférence comprise entre 30 et 150 m/min.The cardboard 9 runs under a machine 11 for dispensing hot-melt adhesive. The machine 11 may be a nozzle type of machine or, preferably, a roll-type machine, such as a machine including a 3960 generator Multiscan ® sold by Nordson connected by automatic heating pipes 2 m 40 to automatic pistols marketed by this Company under the reference H20. The fluid coating (hot in the case of hot-melt adhesive) is introduced, for example, between two rollers and flows through a calibrated space. formed between these rollers. The hot glue containing the ferromagnetic particles is deposited on the cardboard 9 scrolling along arrow 13 at a speed for example between 20 and 250 m / min., Preferably between 30 and 150 m / min.
Avantageusement avant la fermeture de la colle, lorsque les particules sont encore mobiles dans l'enduit selon la présente invention, le carton enduit passe dans l'entrefer d'un aimant ou électroaimant 15 générant un champ magnétique sensiblement uniforme sur toute la largeur du carton. Lors de l'arrivée au niveau de l'aimant 15 l'enduit selon la présente invention a une température inférieure à la température de Curie du matériau formant les particules ferromagnétiques. On utilise par exemple un aimant 15 permanent engendrant un champ magnétique de 0,4 Teslas sur une surface égale à 1 ,10 x 0,70 m. En variante, on utilise un électroaimant refroidi par air ou refroidi par eau, par exemple générant un champ magnétique sensiblement égal à 0,5 Teslas. Il est à noter que la viscosité du revêtement selon la présente invention au niveau des éléments 15 ainsi que l'amplitude du champ magnétique sont tels que on évite la migration des particules magnétiques en dehors du liant et leur collage dans l'entrefer des éléments 15. De même, des moyens de guidage (non représentés) empêchent le carton 9 recouvert du revêtement selon la présente invention de venir se coller à l'un des pôles de l'aimant 15.Advantageously before the glue is closed, when the particles are still mobile in the coating according to the present invention, the coated cardboard passes through the air gap of a magnet or electromagnet 15 generating a substantially uniform magnetic field over the entire width of the cardboard . Upon arrival at the magnet 15, the coating according to the present invention has a temperature below the Curie temperature of the material forming the ferromagnetic particles. A permanent magnet is used, for example, generating a magnetic field of 0.4 Teslas over an area equal to 1.10 × 0.70 m. Alternatively, an air-cooled or water-cooled electromagnet is used, for example generating a magnetic field substantially equal to 0.5 Teslas. It should be noted that the viscosity of the coating according to the present invention at the level of the elements 15 as well as the amplitude of the magnetic field are such that the migration of the magnetic particles outside the binder and their sticking in the air gap of the elements 15 are avoided. Likewise, guide means (not shown) prevent the cardboard 9 covered with the coating according to the present invention from sticking to one of the poles of the magnet 15.
Avantageusement, le dispositif de la figure 2 comporte en outre des moyens de dépose (non illustrés) d'un élément en feuilles, typiquement en papier, destiné à recouvrir la surface du carton. Le papier peut comporter divers impressions et peut être déposé avant ou après l'application du champ magnétique par l'aimant 15.Advantageously, the device of FIG. 2 further comprises means for depositing (not shown) a sheet element, typically made of paper, intended to cover the surface of the cardboard. The paper can have various prints and can be deposited before or after the magnetic field is applied by the magnet 15.
Le dispositif de la figure 2 comporte avantageusement des moyens de découpe du carton 9 (non illustré). Il est bien entendu que la présente invention n'est pas limitée à des moyens d'encollage en continu mais s'applique également aux moyens d'encollage discontinus, feuilie à feuille. Un machine encolle par exemple 90 cartons à la minute, chaque carton ayant une surface de 40 cm sur 55 cm.The device of Figure 2 advantageously comprises means for cutting the cardboard 9 (not shown). It is understood that the present invention is not limited to continuous sizing means but also applies to discontinuous sizing means, sheet laminated. A machine glues, for example, 90 cartons per minute, each carton having an area of 40 cm by 55 cm.
Il est également possible, notamment dans le cas d'encollage discontinu, de déposer le revêtement sur uniquement des zones prédéfinies ou de magnétiser uniquement certaines zones de manière à faire tenir les aimants uniquement dans ces zones prédéfinies recevant en outre un . marquage particulier correspondant par exemple à des réponses correctes à des questions imprimées sur la face visible du support. La magnétisation par zone peut être obtenue par des entrefers de l'aimant 15 ayant la forme des zones désirées soit en employant un ensemble d'electroaimants disposés de manière matricielle et en alimentant uniquement les électroaimants se trouvant en vis-à-vis des zones à aimanter.It is also possible, in particular in the case of discontinuous gluing, to deposit the coating on only predefined zones or to magnetize only certain zones so as to hold the magnets only in these predefined zones also receiving one. particular marking corresponding for example to correct answers to questions printed on the visible face of the support. The zone magnetization can be obtained by air gaps of the magnet 15 having the shape of the desired zones either by using a set of electromagnets arranged in a matrix and by feeding only the electromagnets located opposite the zones to magnetize.
Le procédé selon l'invention permet également d'adapter l'épaisseur de l'enduit en fonction du grammage des deux feuilles à encoller. Par exemple, le contrecollage d'une feuille d'un poids de 90 g sur une feuille de même épaisseur ou plus épaisse nécessite environ 90 à 120 g d'enduit. L'enduit magnétisé de l'aimant peut également être adapté dans les mêmes conditions. Autrement dit, l'épaisseur de l'enduit peut être parfaitement adapté à l'effet esthétique, de poids, de force d'aimantation et de coût économique que l'on souhaite donner. La présente invention s'applique à la réalisation de jeux, notamment de puzzles, jeux de société, jeux éducatifs, de revêtements muraux permettant la fixation amovible (par des aimants) d'éléments de décoration ou de signalisation, et analogues.The method according to the invention also makes it possible to adapt the thickness of the coating as a function of the grammage of the two sheets to be bonded. For example, laminating a sheet weighing 90 g to a sheet of the same thickness or thicker requires approximately 90 to 120 g of plaster. The magnetized coating of the magnet can also be adapted under the same conditions. In other words, the thickness of the coating can be perfectly adapted to the aesthetic effect, of weight, of magnetization force and of economic cost which it is desired to give. The present invention applies to the production of games, in particular puzzles, board games, educational games, wall coverings allowing the removable fixing (by magnets) of decorative or signaling elements, and the like.
La présente invention s'applique principalement à la papeterie et au bâtiment. The present invention applies mainly to stationery and building.

Claims

REVENDICATIONS
1. Enduit susceptible d'être étalé sensiblement régulièrement sur une surface comportant un liant caractérisé en ce qu'il comporte en outre un constituant ferromagnétique, notamment un oxyde de fer. 1. A plaster capable of being spread substantially regularly over a surface comprising a binder, characterized in that it also comprises a ferromagnetic component, in particular an iron oxide.
2. Enduit selon la revendication 1 , caractérisé en ce que le liant est une colle, notamment une colle thermofusible.2. Coating according to claim 1, characterized in that the binder is an adhesive, in particular a hot-melt adhesive.
3. Enduit selon la revendication 2, caractérisé en ce que l'enduit comporte sensiblement deux parts en poids de colle thermofusible et six parts en poids d'oxyde de fer. 3. Coating according to claim 2, characterized in that the coating comprises substantially two parts by weight of hot-melt adhesive and six parts by weight of iron oxide.
4. Enduit selon la revendication 1 , caractérisé en ce que le liant est une peinture.4. Plaster according to claim 1, characterized in that the binder is a paint.
5. Procédé d'enduction d'une surface, caractérisé en ce qu'il1 comporte les étapes suivantes : a) enduction d'un support, notamment du carton, d'une couche d'épaisseur constante ou sensiblement constante avec un enduit selon l'une quelconque des revendications précédentes ; et b) prise de l'enduit étalé sur la surface.5. A method of coating a surface, characterized in that it 1 comprises the following steps: a) coating a support, in particular cardboard, with a layer of constant or substantially constant thickness with a coating according to any of the preceding claims; and b) taking the plaster spread on the surface.
6. Procédé selon la revendication 5, caractérisé en ce qu'il comporte une charge ferromagnétique correspondant à 200 à 850 g au mètre carré d'oxyde de fer, de préférence sensiblement égal à 800 g au mètre carré d'oxyde de fer.6. Method according to claim 5, characterized in that it comprises a ferromagnetic charge corresponding to 200 to 850 g per square meter of iron oxide, preferably substantially equal to 800 g per square meter of iron oxide.
7. Procédé selon la revendication 5 ou 6, caractérisé en ce qu'il comporte en outre une étape c) d'aimantation de la charge ferromagnétique de l'enduit. 7. Method according to claim 5 or 6, characterized in that it further comprises a step c) of magnetization of the ferromagnetic charge of the coating.
8. Procédé selon la revendication 7, caractérisé en ce que l'étape c) d'aimantation de la charge ferromagnétique est antérieure à l'étape b) de prise du liant de l'enduit et en ce que le champ magnétique d'aimantation est suffisamment fort pour assurer l'orientation des particules magnétiques dans le liant avant la prise de celui-ci. 8. Method according to claim 7, characterized in that step c) of magnetization of the ferromagnetic charge is prior to step b) of taking the binder from the coating and in that the magnetic field of magnetization is strong enough to ensure the orientation of the magnetic particles in the binder before it sets.
9. Machine d'enduction pour la mise en oeuvre du procédé selon l'une quelconque des revendications 5 à 8, caractérisée en ce qu'elle comporte des moyens (1 1 ) d'enduction d'un support (9), notamment du carton avec un enduit selon la revendication 2 ou 3, ladite machine comportant des moyens de chauffage d'une colle thermofusible et de son application sur ledit support (9). 9. coating machine for implementing the method according to any one of claims 5 to 8, characterized in that it comprises means (1 1) for coating a support (9), in particular cardboard with a coating according to claim 2 or 3, said machine comprising means for heating a hot-melt adhesive and applying it to said support (9).
10. Machine selon la revendication 9, caractérisée en ce qu'elle comporte en outre un aimant (15) pour l'aimantation de la couche d'enduit. 10. Machine according to claim 9, characterized in that it further comprises a magnet (15) for the magnetization of the coating layer.
EP99929425A 1998-07-07 1999-07-07 Magnetic coating, coating method using said coating and implementing device Withdrawn EP1095112A1 (en)

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FR9808668A FR2781493B1 (en) 1998-07-07 1998-07-07 MAGNETIC COATING, COATING METHOD USING SUCH A COATING AND DEVICE FOR CARRYING OUT THE METHOD
FR9808668 1998-07-07
PCT/FR1999/001640 WO2000001776A1 (en) 1998-07-07 1999-07-07 Magnetic coating, coating method using said coating and implementing device

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US6881450B1 (en) 2005-04-19
FR2781493A1 (en) 2000-01-28

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