| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 多层柔性元件,优选由木材制成,及通过激光雕刻或切削的生产方法 | CN201280053205.5 | 2012-02-07 | CN104010805B | 2016-10-05 | 马塞罗·安东奈莉; 玛塔·安东奈莉 |
| 多层柔性元件(10),优选由木材制成,及通过激光雕刻或切削的生产方法,优选应用于时装、家具和设计行业,其特征在于所述元件组成如下:一刚性材料层(11),采用片材或板材,优选由木材制成;一柔性支撑材料层(12),例如织物,在其上连接刚性材料层(11);所述刚性材料层(11)与所述柔性支撑材料层(12)的连接物(13),例如胶,其特征是高弹性和耐温度变化;矢量图形的纹理(14)确定了材料块的切削、柔韧性和随之而来的建模和柔软性;所述方法(50)包括以下步骤:所述刚性材料层(11)到所述柔性支撑材料层(12)的连接,例如通过胶;矢量图形纹理(14)的设计图案(52),下载到能够产生并聚焦高功率激光束的工业装置的控制系统中;根据上述纹理(14)通过激光束引发的高温蒸发和融合雕刻(53)和/或切削所述刚性材料层(11);从而使刚性材料具有柔性,如木材和类似材料,以适合作为涵盖时装,家具及设计行业的装饰和/或功能的元件。 | ||||||
| 2 | 多层柔性元件,优选由木材制成,及通过激光雕刻或切削的生产方法 | CN201280053205.5 | 2012-02-07 | CN104010805A | 2014-08-27 | 马塞罗·安东奈莉; 玛塔·安东奈莉 |
| 多层柔性元件(10),优选由木材制成,及通过激光雕刻或切削的生产方法,优选应用于时装、家具和设计行业,其特征在于所述元件组成如下:一刚性材料层(11),采用片材或板材,优选由木材制成;一柔性支撑材料层(12),例如织物,在其上连接刚性材料层(11);所述刚性材料层(11)与所述柔性支撑材料层(12)的连接物(13),例如胶,其特征是高弹性和耐温度变化;矢量图形的纹理(14)确定了材料块的切削、柔韧性和随之而来的建模和柔软性;所述方法(50)包括以下步骤:所述刚性材料层(11)到所述柔性支撑材料层(12)的连接,例如通过胶;矢量图形纹理(14)的设计图案(52),下载到能够产生并聚焦高功率激光束的工业装置的控制系统中;根据上述纹理(14)通过激光束引发的高温蒸发和融合雕刻(53)和/或切削所述刚性材料层(11);从而使刚性材料具有柔性,如木材和类似材料,以适合作为涵盖时装,家具及设计行业的装饰和/或功能的元件。 | ||||||
| 3 | Infrared radiation process for a high contrast in the natural grain of a naturally pale wood | US779253 | 1991-10-18 | US5190791A | 1993-03-02 | Jurgen Gunter; Siegfried Kohler; Siegfried Lang; Luise Schellhorn; Erwin Lutz |
| A process brings out a high contrast in natural grain of a naturally pale wood via infrared irradiation having a wavelength which is as long as possible. This infrared radiation can come from a conventional infrared emitter or, more preferably, from a carbon dioxide laser. Due to the contact-free heating near the surface which is effective in a stagnant ambient atmosphere, the new wood part of the grain is browned, while the harder old wood part remains essentially unbrowned. This causes the natural grain of the wood to stand out in contrast. Due to the contact-free and turbulence-free mode of operation of the heating, the grain pattern produced is uniform. Any scratches or chatter marks in the wood are simply covered over and remain invisible. | ||||||
| 4 | Method for preservation treatment of wood | US492587 | 1990-03-12 | US5075131A | 1991-12-24 | Nobuaki Hattori; Kuniharu Yokoo |
| A method for preservation treatment of wood comprises the steps of radiating a laser beam on a part of the surface of the wood at the least to form small holes therein, impregnating the wood with a preservative, and then applying high frequency waves to the wood to dry it by dielectric heating. | ||||||
| 5 | MULTILAYER FLEXIBLE ELEMENT, PREFERABLY MADE OF WOOD, AND RELATED PRODUCTION PROCESS BY LASER ENGRAVING AND/OR CUTTING | US14357207 | 2012-02-07 | US20150050454A1 | 2015-02-19 | Marcello Antonelli; Marta Antonelli |
| Multilayer flexible element (10), preferably made of wood, and related production process (50) by laser engraving and/or cutting, preferably applied in fashion, furniture and design industries, characterized in that said element is composed of:—a layer of rigid material (11), supplied in sheets or plates, preferably made of wood;—a layer of flexible support material (12), in example a tissue, onto which is connected said layer of rigid material (11);—means of connection (13) of said layer of rigid material (11) to said layer of flexible support material (12), in example by glue, characterized by high elasticity and resistance to temperature changes;—a texture in vector graphics (14) which will define the cutting of the workpiece material, his flexibility and the consequent modeling and softness; wherein said process (50) comprises the following steps:—connection (51) of said layer of rigid material (11) to said layer of flexible support material (12), in example by glue;—design (52) of said texture in vector graphics (14), and download into a control system of an industrial device suitable to generate and focus a high power laser beam;—engraving (53) and/or cutting of said layer of rigid material (11), guided by the above- mentioned texture (14), by fusion and high temperature evaporation caused by a laser beam; in order to make flexible some rigid materials, like in example wood and similar materials, and suitable as decorative and/or functional elements for covering in fashion, furniture and design industries. | ||||||
| 6 | Reforming method of wood | JP5819189 | 1989-03-10 | JPH07115326B2 | 1995-12-13 | 順昭 服部; 国治 横尾 |
| 7 | Verfahren zum Behandeln einer Oberfläche eines Werkstücks aus Holz oder Holzwerkstoff | EP13001871.6 | 2013-04-11 | EP2789436B1 | 2015-10-07 | Siebert, Axel |
| 8 | 好ましくは木材を原料とする多層可撓性要素、及び、関連するレーザー彫刻及び/又は切削による製造方法 | JP2014540638 | 2012-02-07 | JP2015502272A | 2015-01-22 | アントネッリ,マルセロ; アントネッリ,マルタ |
| 好ましくは木材を原料とし、ファッション、家具及びデザイン産業において好適に採用される多層可撓性要素、及び、関連するレーザー彫刻及び/又は切削による製造方法であって、前記要素は、シート状あるいはプレート状で供給される、好ましくは木材を原料とする硬質材料層(11)と、前記硬質材料層に接合されたティシュ等の可撓性サポート材料層(12)と、高い弾性及び温度変化に対する抵抗性を有する接着剤等の前記硬質材料層(11)を可撓性サポート材料層(12)に接合する手段(13)と、被加工物の切削方法を定義したベクターグラフィックス(形式)のテクスチャ(14)と、を含む可撓性及びその結果の成型性及び柔軟性を有し、前記方法は、例えば、木材及び類似の材料などの硬質材料を可撓性にし、ファッション、家具及びデザイン産業に適用するための装飾的及び/又は機能的要素として適切にするために、例えば、接着剤により、前記硬質材料層(11)を可撓性サポート材料層(12)に接合するステップ(51)と、ベクターグラフィックの前記テクスチャをデザインし、高出力レーザービームの発生及び焦点合わせに適した産業装置のコントロールシステムにダウンロードするステップと、前記テクスチャ(14)によりガイドされ、レーザービームにより生じる融解と高温による蒸発により前記硬質材料層(11)を彫刻及び/又は切削するステップ(53)を有する。 | ||||||
| 9 | 好ましくは木材を原料とする多層可撓性要素、及び、関連するレーザー彫刻及び/又は切削による製造方法 | JP2014540638 | 2012-02-07 | JP5961849B2 | 2016-08-02 | アントネッリ,マルセロ; アントネッリ,マルタ |
| 10 | Method for accelerating fluid movement in wood | JP5819189 | 1989-03-10 | JPH02235702A | 1990-09-18 | HATTORI NOBUAKI; YOKOO KUNIHARU |
| PURPOSE: To uniformly and rapidly pour a liquid not only into the sap wood part but also into the heat wood part of wood so as to be able to rapidly remove moisture not only from the surface layer part but also from the interior of the wood by a method wherein the liquid is poured through holes, which are produced by irradiating laser beams over the wood, in the wood. CONSTITUTION: After holes are produced by irradiating laser beams to wood, liquid is poured through the holes made by lasing in the wood. Any laser including gas laser such as CO 2 laser or the like can be used for the laser beams. Only by irradiating laser beams on the surface of the wood, deep holes are easily obtained. By producing the holes with the laser beams, the part of wood material is decomposed, evaporated and vanished by being heated up to high temperature without destruction and crush of the cell wall of the wood, resulting in exposing the cell wall surface in the holes made by lasing. Accordingly, gas and liquid more easily move in the wood than they move when holes are produced by mechanical incising treatment. COPYRIGHT: (C)1990,JPO&Japio | ||||||
| 11 | MULTILAYER FLEXIBLE ELEMENT MADE OF WOOD AND RELATED PRODUCTION PROCESS BY LASER ENGRAVING AND/OR CUTTING | EP12715735.2 | 2012-02-07 | EP2776240B1 | 2016-12-14 | ANTONELLI, Marcello; ANTONELLI, Marta |
| 12 | WOOD COMPONENT AND A METHOD FOR THE PRODUCTION AND APPLICATION OF THE SAME | EP98959732.3 | 1998-10-16 | EP1021283A1 | 2000-07-26 | FISCHER, Roland; HALLER, Peer; WIEDEMANN, Günter; PANZNER, Michael; WUST, Hendrik |
| The invention relates to a wood component in which the wood has altered properties in geometrically defined areas. Said geometrically defined areas exclusively comprise the properties of solidified melting wood. The invention also relates to a method for producing such components and to the application of said component. | ||||||
| 13 | Verfahren sowie Vorrichtung zum Behandeln zumindest einer Oberfläche eines Werkstücks aus Holz oder Holzwerkstoff | EP13001871.6 | 2013-04-11 | EP2789436A1 | 2014-10-15 | Siebert, Axel |
Ein Verfahren und eine Vorrichtung zum Behandeln zumindest einer Oberfläche (2) eines Werkstücks (1) aus Holz oder Holzwerkstoff zeichnet sich dadurch aus, dass eine definierte Wärmemenge in ein schichtförmiges Volumen (3) direkt hinter der behandelten Oberfläche (2) eingebracht wird.
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| 14 | MULTILAYER FLEXIBLE ELEMENT, PREFERABLY MADE OF WOOD, AND RELATED PRODUCTION PROCESS BY LASER ENGRAVING AND/OR CUTTING | EP12715735.2 | 2012-02-07 | EP2776240A1 | 2014-09-17 | ANTONELLI, Marcello; ANTONELLI, Marta |
| Multilayer flexible element (10), preferably made of wood, and related production process (50) by laser engraving and/or cutting, preferably applied in fashion, furniture and design industries, characterized in that said element is composed of: - a layer of rigid material (11), supplied in sheets or plates, preferably made of wood; - a layer of flexible support material (12), in example a tissue, onto which is connected said layer of rigid material (11); - means of connection (13) of said layer of rigid material (11) to said layer of flexible support material (12), in example by glue, characterized by high elasticity and resistance to temperature changes; - a texture in vector graphics (14) which will define the cutting of the workpiece material, his flexibility and the consequent modeling and softness; wherein said process (50) comprises the following steps: - connection (51) of said layer of rigid material (11) to said layer of flexible support material (12), in example by glue; - design (52) of said texture in vector graphics (14), and download into a control system of an industrial device suitable to generate and focus a high power laser beam; - engraving (53) and/or cutting of said layer of rigid material (11), guided by the above- mentioned texture (14), by fusion and high temperature evaporation caused by a laser beam; in order to make flexible some rigid materials, like in example wood and similar materials, and suitable as decorative and/or functional elements for covering in fashion, furniture and design industries. | ||||||
| 15 | Verfahren zum kontrastreichen Hervortretenlassen der Eigenmaserung eines an sich blassen Holzes durch Infrarotbestrahlung | EP91113083.9 | 1991-08-03 | EP0481179A1 | 1992-04-22 | Günter, Jürgen, Dr.; Köhler, Siegfried; Lang, Siegfried; Schellhorn, Luise, Dr.; Lutz, Erwin |
Die Erfindung betrifft ein Verfahren zum kontrastreichen Hervortretenlassen der Eigenmaserung eines an sich blassen Holzes durch möglichst langwellige Infrarotbestrahlung. Diese Infrarotbestrahlung kann seitens eines konventionellen Infrarotstrahlers oder - besser - seitens eines Kohlendioxid-Lasers herrühren. Dank der berührungsfreien und bei stagnierender Umgebungsatmosphäre wirksamen, oberflächennahen Erwärmung wird der Frühholzanteil der Maserung gebräunt, wogegen der härtere Spätholzanteil im wesentlichen ungebräunt bleibt. Dadurch tritt die Eigenmaserung des Holzes kontrastreich hervor. Dank der berührungsfreien und turbulenzfreien Arbeitsweise der Erwärmung ist das erzeugte Maserungsbild gleichmäßig; etwaige Kratzer oder Schleifriefen im Holz werden ohne weiteres überspielt und bleiben unsichtbar. Bestimmte Verfahrensparameter für die Wärmeeinwirkung werden erwähnt. |
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| 16 | 가구용 장식판 및 그 장식판 제조방법 | KR1020170085300 | 2017-07-05 | KR101862328B1 | 2018-05-29 | 이병한 |
| 본발명은가구용장식판에관한것으로, 더욱상세하게는가구의포인트부분에적용이가능하게하되, 입체감의디자인연출이가능하게하면서도, 편리한제작으로디자인의연출이가능하게하며, 특히파손을방지하여안전한사용이가능하게하며, 또한가구를제작하고남는목재를이용하여제작이가능하게하는등 재활용성의향상에따른자원의절감을가져오며, 이에따른원가의절감및 소비자로하여금경제적인부담을덜어주게하며, 또한사용자가필요에따라다양한디자인으로의변경연출이가능하게하는등 그취급상의편리함과효율적인사용이가능하게하기위한가구용장식판및 그장식판제조방법에관한것이다. | ||||||
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