There is provided an apparatus for forming a magnetic pigment pattern on an article. The apparatus includes: a magnetic pattern mold having nonmagnetic pattern grooves engraved in a predetermined pattern and providing predetermined magnetic field lines on a pattern-forming object surface of an article by generating magnetism in areas outside the nonmagnetic pattern grooves; and a spray unit spraying an adhesive resin composite containing a ferromagnetic pigment onto the pattern-forming object surface of the article. A predetermined magnetic pigment pattern is formed while the magnetic pigment of the adhesive resin composite that is applied to the pattern-forming object surface of the article is rearranged along magnetic field lines generated by the magnetic pattern mold.
B05C 11/02 - Appareils pour étaler ou répartir des liquides ou d'autres matériaux fluides déjà appliqués sur une surfaceRéglage de l'épaisseur du revêtement
B05C 13/00 - Moyens pour manipuler ou tenir des objets, p. ex. des objets individuels
B05D 3/00 - Traitement préalable des surfaces sur lesquelles des liquides ou d'autres matériaux fluides doivent être appliquésTraitement ultérieur des revêtements appliqués, p. ex. traitement intermédiaire d'un revêtement déjà appliqué, pour préparer les applications ultérieures de liquides ou d'autres matériaux fluides
B05D 3/06 - Traitement préalable des surfaces sur lesquelles des liquides ou d'autres matériaux fluides doivent être appliquésTraitement ultérieur des revêtements appliqués, p. ex. traitement intermédiaire d'un revêtement déjà appliqué, pour préparer les applications ultérieures de liquides ou d'autres matériaux fluides par exposition à des rayonnements
There is provided an anhydrous dyeing system for yarn, including: a transfer printer which repeatedly sprays dye ink on a surface of a transfer sheet a plurality of times to laminate and apply ink layers; a dyeing jig which is in a drum form having a plurality of microholes formed in an outer circumferential surface thereof to penetrate inside and outside; a process chamber into which the dyeing jig is put; a heating member for heating the yarn wound on the dyeing jig, by supplying heat to the inside of the process chamber; and a vacuum-generating member which is in communication with an internal space of the dyeing jig and vacuum-evacuates the air in the internal space of the dyeing jig to thereby form a vacuum pressure inside the dyeing jig.
D06B 3/04 - Passage des matières textiles à travers des liquides, gaz ou vapeurs en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage, imprégnation de filés, fils ou filaments
D06B 11/00 - Traitement limité à certaines parties de matières textiles, p. ex. teinture partielle
D06B 19/00 - Traitement de matières textiles par des liquides, gaz ou vapeurs, non prévu dans les groupes
D06B 23/00 - Parties constitutives ou accessoires d'appareils ou de machines, spécialement adaptés au traitement des matières textiles, non limités à un type particulier d'appareil prévu dans les groupes
D06B 23/22 - Aménagements des appareils pour effectuer une opération sur les liquides, les gaz ou les vapeurs de traitement, p. ex. une purification, une filtration ou une distillation pour chauffer
The present invention relates to a resin-coated yarn, and a system and method for manufacturing same, wherein a hot-melt resin is coated on a yarn with inorganic powders and thus the yarn has increased initial elastic modulus (Young's Modulus) and improved sphericity and centrality. The resin-coated yarn manufacturing system according to the present invention comprises: a core yarn supply unit to which a core yarn reel having a core yarn to be coated wounded therearound is mounted; a resin coating unit which includes a coating nozzle through which the core yarn released and transported from the core yarn supply unit passes and is configured to coat and extrude a resin mixture on the surface of the core yarn by supplying the resin mixture to the coating nozzle, the resin mixture being obtained by mixing inorganic particles with a molten hot-melt resin; a primary cooling unit for performing primary cooling by spraying cooling water mist and cooling air to the core yarn (hereinafter referred to as a "coated yarn") coated with the resin mixture transported through the resin coating unit; a secondary cooling unit for performing secondary cooling by passing the coated yarn having passed through the primary cooling unit through cooling water stored in a water storage tank; and a coated yarn recovery unit having an unloader shaft to which a recovery reel is rotatably mounted such that the coated yarn having passed through the secondary cooling unit is wound around same.
D06B 1/02 - Application de liquides, de gaz ou de vapeurs aux matières textiles en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage ou imprégnation par pulvérisation ou projection
D02J 13/00 - Chauffage ou refroidissement de filaments, filés, fils câblés, cordes ou similaires ne correspondant spécifiquement à aucun des procédés prévus dans la présente sous-classe
D06B 3/04 - Passage des matières textiles à travers des liquides, gaz ou vapeurs en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage, imprégnation de filés, fils ou filaments
D06B 15/02 - Élimination de liquides, de gaz ou de vapeurs de matières textiles associée au traitement de ces matières par des liquides, des gaz ou des vapeurs avec des rouleaux essoreurs
D06B 15/09 - Élimination de liquides, de gaz ou de vapeurs de matières textiles associée au traitement de ces matières par des liquides, des gaz ou des vapeurs par jets de gaz
D06M 15/263 - Composés macromoléculaires obtenus par des réactions faisant intervenir uniquement des liaisons non saturées carbone-carbone d'acides carboxyliques non saturésLeurs sels ou esters
HOT-MELT BONDING FILM FOR FORMING THREE-DIMENSIONAL OPTICAL ILLUSION PATTERN OF FABRIC, AND APPARATUS AND METHOD FOR FORMING THREE-DIMENSIONAL OPTICAL ILLUSION PATTERN OF FABRIC BY USING SAME
The present invention relates to an apparatus and a method for forming a pattern of a fabric, which can easily change a pattern to be formed on a fabric and can easily form various patterns that give a three-dimensional optical illusion effect. The apparatus and the method for forming a pattern of a fabric, according to the present invention, comprises: a magnetic pattern mold for generating magnetic force lines in a predetermined pattern; a hot-melt bonding film in the form of a film in which a metal pigment made of a ferromagnetic powder is mixed with a hot-melt resin, and laminated together with a fabric in the magnetic pattern mold; and a heating and pressing unit for applying pressure and heat to the hot-melt bonding film and the fabric with respect to the magnetic pattern mold, in a state in which the hot melt bonding film and the fabric are laminated on the magnetic pattern mold, to melt the hot-melt bonding film, and adhering the melted film to the fabric, wherein the metal pigment in the hot-melt bonding film forms a predetermined three-dimensional optical illusion pattern while being arranged along the magnetic force lines generated on the magnetic pattern mold when the hot-melt bonding film is melted by the heat of the heating and pressing unit.
B41J 2/43 - Machines à écrire ou mécanismes d'impression sélective caractérisés par le procédé d'impression ou de marquage pour lequel ils sont conçus caractérisés par l'alimentation sélective en courant électrique ou l'application sélective d'un champ magnétique à un matériau d'impression ou de transfert d'impression pour l'impression magnétique
B41J 2/42 - Machines à écrire ou mécanismes d'impression sélective caractérisés par le procédé d'impression ou de marquage pour lequel ils sont conçus caractérisés par l'alimentation sélective en courant électrique ou l'application sélective d'un champ magnétique à un matériau d'impression ou de transfert d'impression pour chauffer sélectivement
B41N 1/06 - Clichés ou plaques d'impressionMatériaux à cet effet métalliques pour l'impression avec forme en relief ou en creux
B29C 63/02 - Garnissage ou gainage, c.-à-d. application de couches ou de gainages préformés en matière plastiqueAppareils à cet effet avec des matières sous forme de feuilles ou de nappes
B29C 43/20 - Fabrication d'objets multicouches ou polychromes
B29C 43/36 - Moules pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés
An anhydrous fiber-dyeing apparatus using vacuum transfer, includes: a hollow drum in which a plurality of fine holes are formed to penetrate therethrough, and a fiber to be dyed are wound around an outer surface thereof; a transfer film covering the outer surface of the fiber wound around the drum and having an inner side surface coated with a dye; heating means heating the fiber wound around the drum; and a vacuum means suctioning air through an inner space of the drum to form a vacuum pressure through the fine holes of the drum.
D06B 11/00 - Traitement limité à certaines parties de matières textiles, p. ex. teinture partielle
D06B 3/04 - Passage des matières textiles à travers des liquides, gaz ou vapeurs en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage, imprégnation de filés, fils ou filaments
D06B 19/00 - Traitement de matières textiles par des liquides, gaz ou vapeurs, non prévu dans les groupes
D06B 23/00 - Parties constitutives ou accessoires d'appareils ou de machines, spécialement adaptés au traitement des matières textiles, non limités à un type particulier d'appareil prévu dans les groupes
A three-dimensional out sole having a pattern having improved quality and durability has a dye permeated into the surface of the outsole. A depth to which the dye penetrating the micropores is 0.08 mm to 0.12 mm. The dye is permeated into the microspores through vacuum suction. The dye is digitally printed on a thermoplastic sheet. The thermoplastic sheet on which the dye is printed is heated to be softened with flexibility. The softened sheet having flexibility is closely attached to a surface of the shoe outsole having the three-dimensional shape through vacuum adsorption and then is permeated therein.
B41M 1/40 - Impression sur des objets de forme particulière
B41M 5/00 - Procédés de reproduction ou méthodes de reproduction ou de marquageMatériaux en feuilles utilisés à cet effet
B41M 5/025 - Procédés de reproduction ou méthodes de reproduction ou de marquageMatériaux en feuilles utilisés à cet effet en transférant l'encre de la feuille mère
B41M 5/03 - Procédés de reproduction ou méthodes de reproduction ou de marquageMatériaux en feuilles utilisés à cet effet en transférant l'encre de la feuille mère par pression
B41M 5/382 - Procédés de transfert ou de sublimation par contact
B41M 7/00 - Traitement ultérieur des travaux imprimés, p. ex. chauffage, irradiation
The present invention relates to an anhydrous dyeing system for dyeing yarn by using vacuum transfer. The anhydrous dyeing system for yarn, according to the present invention, comprises: a transfer printer which repeatedly sprays dye ink on a surface of a transfer sheet a plurality of times to laminate and apply ink layers; a dyeing jig which is in a drum form having a plurality of microholes formed in the outer circumferential surface thereof to penetrate inside and outside, wherein yarn to be dyed and the transfer sheet on which the ink layers are applied are sequentially wound on the outer circumferential surface of the dyeing jig; a process chamber into which the dyeing jig is put; a heating means for heating the yarn wound on the dyeing jig, by supplying heat to the inside of the process chamber; and a vacuum-generating means which is in communication with the internal space in the dyeing jig and vacuum-evacuates the air in the internal space of the dyeing jig to thereby form a vacuum pressure inside the dyeing jig.
D06B 3/04 - Passage des matières textiles à travers des liquides, gaz ou vapeurs en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage, imprégnation de filés, fils ou filaments
D06B 23/00 - Parties constitutives ou accessoires d'appareils ou de machines, spécialement adaptés au traitement des matières textiles, non limités à un type particulier d'appareil prévu dans les groupes
8.
METHOD FOR WATERLESS DYEING OF YARN BY USING VACUUM TRANSFER
The present invention relates to a method for waterless dyeing of yarn, the method winding, around the outer circumferential surface of a porous drum-shaped jig, a yarn to be dyed, covering the outer surface thereof with a transfer sheet coated with a dye ink, and then creating vacuum pressure through the inner space of the dyeing jig so as to transfer the dye ink to the yarn, thereby enabling waterless dyeing of same, and the method for waterless dyeing of yarn, according to the present invention, comprises the steps of: (S1) winding, around the outer surface of a dyeing jig comprising a porous drum in which micro-holes are formed, a yarn to be dyed; (S2) covering the outer surface of the yarn, which is wound around the dyeing jig, with a transfer sheet coated with a dye ink; (S3) injecting the dyeing jig, around which the yarn and the transfer sheet are wound, into a process chamber, and connecting the dyeing jig to a vacuum generation means; (S4) applying heat to the inside of the process chamber to heat the yarn and the transfer sheet; and (S5) operating the vacuum generation means to evacuate the inner space of the dyeing jig, and thus generate a vacuum pressure in the inner space of the dyeing jig so that the dye ink of the transfer sheet is transferred to the yarn and the yarn is dyed.
D06B 3/04 - Passage des matières textiles à travers des liquides, gaz ou vapeurs en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage, imprégnation de filés, fils ou filaments
D06B 23/00 - Parties constitutives ou accessoires d'appareils ou de machines, spécialement adaptés au traitement des matières textiles, non limités à un type particulier d'appareil prévu dans les groupes
9.
ANHYDROUS FIBER-DYEING APPARATUS AND METHOD USING VACUUM TRANSFER, AND FIBER MANUFACTURED BY DYEING METHOD
The present invention relates to an anhydrous fiber-dyeing apparatus and method using vacuum transfer, and a fiber manufactured by the dyeing method, the method winding a fiber around a drum on which a plurality of fine holes are formed, covering same with a transfer film coated with a dye of the color to be dyed, and then applying a high temperature in a vacuum chamber and, simultaneously, applying vacuum pressure in the drum so as to transfer the dye, having been coated on the transfer film, to the fiber, and dye same. The anhydrous fiber-dyeing method using vacuum transfer, according to the present invention, comprises the steps of: (S1) winding a fiber on the outer surface of a drum; (S2) covering, with a dye-coated transfer film, the outer surface of the fiber wound around the drum; (S3) heating the fiber by applying heat in a state in which the fiber and the transfer film are loaded on the drum; and (S4) suctioning air through the inner space of the drum, thereby forming vacuum pressure through the fine holes of the drum.
D06B 3/04 - Passage des matières textiles à travers des liquides, gaz ou vapeurs en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage, imprégnation de filés, fils ou filaments
D06B 23/00 - Parties constitutives ou accessoires d'appareils ou de machines, spécialement adaptés au traitement des matières textiles, non limités à un type particulier d'appareil prévu dans les groupes
10.
THREE-DIMENSIONAL OUT SOLE HAVING IMPROVED PATTERN QUALITY AND DURABILITY, AND SHOE COMPRISING SAME
The present invention relates to a three-dimensional out sole having a pattern having improved quality and durability formed thereon, and a shoe comprising same. The three-dimensional out sole having a pattern having improved quality and durability, according to one preferred embodiment of the present invention, has a dye permeated into the surface of the outsole, and then set therein, thereby beautifully and stereoscopically forming an outsole pattern.
B05D 7/22 - Procédés, autres que le flocage, spécialement adaptés pour appliquer des liquides ou d'autres matériaux fluides, à des surfaces particulières, ou pour appliquer des liquides ou d'autres matériaux fluides particuliers à des surfaces internes, p. ex. à l'intérieur de tubes
B41M 5/382 - Procédés de transfert ou de sublimation par contact
B41M 1/30 - Impression sur d'autres surfaces que le papier ordinaire sur matières plastiques organiques, corne ou matières analogues
11.
ADHESIVE FABRIC WOVEN BY CIRCULAR KNITTING, AND 3D PATTERN FORMING METHOD USING SAME
The present invention relates to an adhesive fabric woven by circular knitting, and a 3D pattern forming method using same and, more particularly, to an adhesive fabric woven by circular knitting, and a 3D pattern forming method using same, in which: a thread coated with a hot-melt resin and a fiber thread are woven by circular knitting to produce an adhesive fabric so as to form layers in which a top layer and a bottom layer of one fabric sheet are woven with fiber threads; a middle layer is a layer formed by weaving hot-melt resin-coated thread to produce an adhesive fabric that is stacked on a base fabric, then surface molded to form a 3D pattern; and the adhesive fabric not only has a fabric feel that is not a plastic feel, thus having good flexibility and breathability, but also a 3D pattern is formed through a simple process via the above-described surface molding. Thus, not only can the work process and time be significantly reduced, but the wear resistance of pressed portions during surface molding can also be improved.
D06M 15/564 - Polyurées, polyuréthanes ou autres polymères comportant des liaisons uréide ou uréthaneLeurs précurseurs précondensés
D06M 15/263 - Composés macromoléculaires obtenus par des réactions faisant intervenir uniquement des liaisons non saturées carbone-carbone d'acides carboxyliques non saturésLeurs sels ou esters
D06M 15/21 - Composés macromoléculaires obtenus par des réactions faisant intervenir uniquement des liaisons non saturées carbone-carbone
D06B 3/04 - Passage des matières textiles à travers des liquides, gaz ou vapeurs en vue d'effectuer un traitement, p. ex. lavage, teinture, blanchiment, encollage, imprégnation de filés, fils ou filaments
D06C 23/02 - Production de motifs ou de dessins sur tissus par flambage, grattage, tondage, attaque chimique ou brossage
D06C 23/04 - Production de motifs ou de dessins sur tissus par retrait, gaufrage, moirage ou crêpage
The present invention relates to a functional non-woven fabric, and more specifically, to a functional non-woven fabric manufactured by bonding a web layer, made from a short fiber such as nylon or polyester, on a scrim by a needle punching, spunlacing or spunbonding method, the fabric being characterized by having various functionalities by using, as the scrim, an adhesive fabric in which adhesiveness has been given to the fabric itself.
D04H 1/46 - Non-tissés formés uniquement ou principalement de fibres coupées ou autres fibres similaires relativement courtes à partir de voiles ou couches composés de fibres ne possédant pas des propriétés cohésives réelles ou potentielles les voiles ou couches étant renforcées par des moyens mécaniques, p. ex. par roulage par aiguilletage ou opérations similaires pour provoquer l'enchevêtrement des fibres
D04H 1/44 - Non-tissés formés uniquement ou principalement de fibres coupées ou autres fibres similaires relativement courtes à partir de voiles ou couches composés de fibres ne possédant pas des propriétés cohésives réelles ou potentielles les voiles ou couches étant renforcées par des moyens mécaniques, p. ex. par roulage
The present invention provides a pad separation assembly-type laminating mold and hot melt laminating press using same. According to the present invention, in said pad separation assembly-type laminating mold and hot melt laminating press using same, a pressure pad of a resilient material is separated in a mold and is detachably inserted and fixed to the mold in order to smoothly laminate the material so that resistance to thermal expansion and thermal contraction of the pressure pad is minimized, deformation of or damage to the pressure pad is prevented, and the service life of the pressure pad can be extended. The pad separation assembly-type laminating mold according to the present invention comprises: a mold main body having an insertion recess formed in the surface thereof and a heating element disposed therein; a body frame detachably inserted and fixed to the insertion recess in the surface of the mold main body, including a pressure pad formed of a resilient material, and formed at a height at which an outwardly open work space is set for the hot melt laminating press using the pad separation assembly-type laminating mold according to the present invention; a laminating mold formed as a top mold and a bottom mold disposed at the top and bottom sides in the work space for the body frame, and having a heating element disposed therein so as to be heated to a set temperature; a punching tool installed at the top of the body frame and coupled to the top mold, and inducing a vertical reciprocating movement of the top mold; a transfer tool installed at the bottom of the work space of the body frame and inducing a horizontal movement of the bottom mold; and a controller for controlling the operations of the heating element, the punching tool, and the transfer tool of the laminating mold.
The present invention relates to a composite cloth sheet for decoration, and more specifically, to a composite cloth sheet for decoration comprising a thin film layer on the upper surface of a cloth layer, wherein a first hot melt film layer is formed between the cloth layer and the thin film layer and a second hot melt film layer is formed at the lower surface of the cloth layer so as to allow the first hot melt film layer and the second hot melt film layer to be fused through holes of the cloth layer, thereby preventing shrinkage even at a high temperature of 250 ℃ or higher, and implementing an appropriate level of flexibility while improving the adhesive force of a material to be adhered and the cloth layer, or the cloth layer and the thin film layer. Further, since the first hot melt film layer and the second hot melt film layer are fused through the holes of the cloth layer as above, the cut surface of the cloth layer does not allow thread and the like to come loose even though the cloth layer is cut. In addition, since the thin film layer implements a coating effect with respect to the pattern of the cloth layer as described, it is possible to prevent the peeling off and the like of a pattern and to upgrade products by highlighting the beauty of design.
brevets
