子分类:
- B32B21/02: .{该层以纤维、碎屑或颗粒的形式,例如例如中密度纤维板、高密度纤维板、定向刨花板、纤维板、刨花板、硬质纤维板}
- B32B21/04: .{包含由木质作为薄层的主要或惟一的成分的层,它与另一层相同或不同的材料相贴}(B32B17/062和B32B23/044优先;与特殊物质层相贴入B32B9/042;与沥青或柏油层相贴的入B32B11/042;与水凝物质层相贴的入B32B13/10;与金属层相贴入B32B15/10;与天然矿物纤维或颗粒相贴入B32B19/042)
- B32B21/10: .与一层纤维的或细丝的薄层相贴
- B32B21/12: .与一层颗粒薄层相贴
- B32B21/13: .所有各薄层只是木质的
- B32B21/14: .包含木板或薄木片的
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Assembled plate of the production method and the natural feeling of the assembly plate of natural feeling | JP2005046539 | 2005-02-23 | JP3785626B1 | 2006-06-14 | 昌宏 保坂 |
| 【課題】桐、ポプラ、ラジアタパイン、ホワイトウッド、ゴム等の人工林にて短いサイクルでの循環生産が可能な木材から、黒檀、紫檀、花梨、チーク、メープル、タモ、ナラ等の天然大径木から得られた板材の木目の色合や風合を有する自然風合の集成板材を得る方法を開発する。
【解決手段】人工林にて循環生産が可能な木材の小ブロックを着色剤の溶液に浸漬し、冬目が完全に着色され、夏目が着色途中の段階で取り出し、柾目を揃えて接着して集成板材となし、冬目が濃く、夏目が淡く着色された自然な外観を有する自然風合の集成板材を得る自然風合の集成板材の製造方法及び自然風合の集成板材を提供する。 【選択図】 図9 |
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| 62 | High-pressure melamine decorative plate, back grooving reinforced floorboards waterproof plywood and soundproof functional layer is laminated and a method of manufacturing the same | JP2004568800 | 2003-09-30 | JP2006515391A | 2006-05-25 | パク、ソン‐チャン; ハン、キー‐スン |
| 【課題】 高圧メラミン化粧板を耐水合板層に積層した裏面溝加工強化床板及びその製造方法を提供する。
【解決手段】 下から順に第2コアー層25、第1コアー層23、紋様紙層22及び表面保護紙層21が積層されてなされる上部高圧メラミン化粧板20が接着剤層40を挟んで裏面溝加工された耐水合板層10で積層され構成されることを特徴とする。 これにより従来の技術の下部HPL30を省略したり、上部HPL20'の中で第1コアー層23と第2コアー層25との間ガラス繊維層24を省略またはコアー層に代替し、耐水合板層10の裏面に溝を形成させることにより、下部HPL30または上部HPL20'のガラス繊維層を省略しても製品施工後同等以上の寸法安定性及びカーリング性を確保したし、裏面溝加工された耐水合板層10が床との接着力を高める効果を与えて床との施工性が一層優秀であった。 また防音機能層をさらに積層することにより防音機能も付与した。 |
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| 63 | JPS5634195B2 - | JP2012577 | 1977-02-25 | JPS5634195B2 | 1981-08-08 | |
| TITLE EXTENDERS AND FILLERS FOR WOOD ADHESIVES INVENTOR Suezone Chow An extender (and filler) for wood adhesives is provided from tree foliage powder or mulch. Suitable tree foliage includes that of conifers and other evergreens, and of deciduous trees. Test results have shown equivalent or better performance for the foliage powder compared to the normally used wheat flour, in bonding plywood or particleboard. | ||||||
| 64 | Method of producing bullding block | JP1717676 | 1976-02-20 | JPS5234909A | 1977-03-17 | OOBUE HENINKU MATSUTOSON; EEBUERUTO BUIRUFUORUTO PERUSHI |
| 65 | Method of using aqueous synthetic resin dispersoid for impregnation and undercoating of absorbent base | JP8407076 | 1976-07-16 | JPS5212245A | 1977-01-29 | YOOZEFU MONTO; KARURU YOOZEFU RAUTERUKUUSU; HAINTSU REEMAN; UERUNERU SHIYUTERUTSUERU; HANSU FUITSUTSUUMU |
| 66 | 성형 부품, 특히 성형 부품으로서 형성된 차량 실내 공간용 장식부 또는 트림부 | KR20170003880 | 2017-07-25 | KR20180000368U | 2018-02-06 | |
| 차량실내공간용장식부및/또는트림부가성형부품으로서형성되어있으며, 지지체(12) 및장식층(11)을포함하고, 상기장식층이상기지지체(12)의반대쪽전면(20)을갖는장식패드(15)를포함하는성형부품(10)에있어서, 상기장식층(11)은장식패드(15)의전면(20)에서적어도부분적으로안료층(18)을구비하며, 상기안료층(18)은광 안료, 금속안료, 진주광택안료, 유기안료또는무기안료를포함하는것을특징으로하는성형부품을청구한다. | ||||||
| 67 | 핫 멜트 접착제 및 그의 형성 방법 | KR1020157028128 | 2014-03-04 | KR1020150127201A | 2015-11-16 | 쿠마르,라제쉬; 레베딘스키,니콜레이; 카일로테,라일,앤드류 |
| 실온에서고체인핫 멜트접착제(HMA)는약 20 내지약 50 중량%의 NCO 함량을갖는이소시아네이트성분 5 내지 25 중량%, 폴리에스테르 75 내지 85 중량%, 및약 40 내지약 50의 OH가를갖는히드록시-중합체 1 내지 10 중량%의반응생성물을포함한다. 접착제를형성하는방법은이소시아네이트성분, 폴리에스테르및 히드록시-중합체를합하여접착제를형성하는단계를포함한다. 접착제는다양한목적, 예컨대표면을함께접착커플링시키는접착층 형성에이용될수 있다. | ||||||
| 68 | 클릭 합판마루 | KR1020080086600 | 2008-09-03 | KR101166284B1 | 2012-07-17 | 박성하; 성재완; 박희준 |
| 본 발명은 클릭 합판마루에 관한 것으로, 강화마루와 합판마루의 장점을 모두 가지는 마루바닥재를 제공하기 위하여 합판의 열압축처리를 실시하고 합판에 클릭형상을 부여한 합판마루를 제공한다. 클릭, 합판마루 | ||||||
| 69 | 엘피엠 절곡 내장재, 그 제조 방법 및 이를 이용한 가구 및 건축 구조체 마감 방법 | KR1020100084309 | 2010-08-30 | KR101035658B1 | 2011-05-19 | 박지은 |
| PURPOSE: An LPM interior material, a manufacturing method thereof, furniture using the same, and a finishing method of construction structure body are provided to improve esthetic sense and waterproofness. CONSTITUTION: An LPM interior material comprises: a wooden board layer(10) having a fixed thickness in order to form a bending groove according to the shape of furniture or constructive structure; a finishing material layer(30) laminated on the wooden board layer; and a bending reinforcement layer(20) for reinforcing bending rigidity of the finishing material layer. The wooden board material forming the wooden board layer is one selected among particle board, medium density fibreboard, high density fibreboard, veneer board, and edge-glued lumber. | ||||||
| 70 | 열전도층을 가지는 마루바닥재 | KR1020090013970 | 2009-02-19 | KR1020100094812A | 2010-08-27 | 남승백 |
| PURPOSE: A flooring material including a thermally conductive layer is provided to maximize the thermal conductivity by adopting metallic powder, carbon nano-tube, or graphite to the multi-layered structure of a floor. CONSTITUTION: A flooring material includes a surface-protective layer(10), a decorating layer(20), a base layer(30), and a rear layer(40). The base layer is composed of one or more board selected from a group including a wood-based board, an inorganic-based board, and a non-chlorinated synthetic resin board. One or more layer of the flooring material is thermally conductive layers including thermally conductive filler. The thermally conductive filler is selected from a group including aluminum-nitride, silicon carbide, ferrite, copper, carbon nano-tube, and graphite material. | ||||||
| 71 | Wax coating and associated methods of use | US14980336 | 2015-12-28 | US10030171B2 | 2018-07-24 | Sarvesh K. Agrawal; Kent A. Baschwitz; Larry E. Hoch |
| Wax compositions are provided with improved properties for various applications, such as coating of composite cellulosic materials, e.g., composite wood material, particleboard, medium density fiberboard, construction board or combination thereof. As described herein, paraffin wax compositions are provided that have n-paraffin content of from about 30% wt to about 95% wt, and a 95% carbon number spread of from about 1 carbon atoms to about 23 carbon atoms, which provide enhanced water proofing properties as compared to waxes currently used. | ||||||
| 72 | HERRINGBONE SURFACE DECORATIVE MATERIAL AND MANUFACTURING METHOD THEREOF | US15402075 | 2017-01-09 | US20180029407A1 | 2018-02-01 | HSIUNG-TIEH YU; STEPHEN CHANG |
| A herringbone surface decorative material includes two different types of rectangular shaped surface decorative sections, i.e. type-B1 and type-B2 decorative sections. Each of the decorative sections includes a plurality of parallel oblique pattern stripes and boundary lines are formed between adjacent pattern stripes. The boundary lines of the type-B1 and the type-B2 decorative sections are mirrored each other. The present invention further provides a method for manufacturing the same. | ||||||
| 73 | Ceiling system | US14868485 | 2015-09-29 | US09845596B2 | 2017-12-19 | William H. Frantz; Gourish Sirdeshpande; Peter J. Oleske; Jere W. Myers; Kenneth P. Roy; Anthony L. Wiker; Shannon M. Weir |
| A ceiling system includes a ceiling support structure supporting a plurality of ceiling panels, each ceiling panel including a core layer having a top surface facing a first interior space above the ceiling panels, a bottom surface facing a second interior space below the ceiling panels, and a plurality of peripheral edges extending between the top and bottom surfaces. A top frame layer extends from the top surface and a thermal layer is on the top frame layer opposite the top surface. The thermal layer has a first surface facing away from the top frame layer and a second surface facing toward the top frame layer. The top frame layer supports the second surface in a spaced-apart manner from the top surface to form one or more air gaps between the top surface and the second surface. The first and second surfaces have a thermal emissivity of 0.5 or less. | ||||||
| 74 | PANEL FOR SHEATHING SYSTEM AND METHOD | US15639027 | 2017-06-30 | US20170342713A1 | 2017-11-30 | John L. BENNETT; Joel F. Barker; Rick D. Jordan; Thomas L. Schuman; Nian Ou; Neil C. Swiacki; Kelly R. Flaherty |
| The panel includes a water resistant barrier layer secured atop its outward facing surface. The water resistant barrier layer includes a skid resistant surface. The panels are made of lignocellulosic material. The water resistant and skid resistant surface may include indicia for aligning strips of tape or for aligning fasteners. A method for manufacturing the water resistant building panels is also disclosed and includes the steps of feeding paper onto a forming belt, depositing lignocellulosic material and the binding agent onto the forming belt so as to form a lignocellulosic mat, applying heat and pressure so as to impart the skid resistant surface on the paper, and cutting panels to predetermined sizes. | ||||||
| 75 | EXTRUSION-COATED STRUCTURAL MEMBERS HAVING EXTRUDED PROFILE MEMBERS | US15655148 | 2017-07-20 | US20170312970A1 | 2017-11-02 | Jennifer Lynne Peavey; Mohan Sasthav; James Wilson Mercer, JR.; Scott Allen Clear; Chanandh Cheowanich |
| The present disclosure relates to extrusion-coated structural systems including at least one extruded profile member coupled to and extending outwardly from an extrusion-coated structural member, as well as methods of making and using the same. Structural systems of the present invention that include at least one extruded profile member may exhibit enhanced flexibility, functionality, and/or durability. Structural systems according to embodiments of the present invention can be suitable for use in a variety of applications, including in ready-to-assemble furniture or cabinetry applications or as building and construction materials such as wall board, flooring, trim, and the like. | ||||||
| 76 | Extrusion-coated structural members having extruded profile members | US14496529 | 2014-09-25 | US09744707B2 | 2017-08-29 | Jennifer Lynne Peavey; Mohan Sasthav; James Wilson Mercer, Jr.; Scott Allen Clear; Chanandh Cheowanich |
| The present disclosure relates to extrusion-coated structural systems including at least one extruded profile member coupled to and extending outwardly from an extrusion-coated structural member, as well as methods of making and using the same. Structural systems of the present invention that include at least one extruded profile member may exhibit enhanced flexibility, functionality, and/or durability. Structural systems according to embodiments of the present invention can be suitable for use in a variety of applications, including in ready-to-assemble furniture or cabinetry applications or as building and construction materials such as wall board, flooring, trim, and the like. | ||||||
| 77 | Hot melt adhesive and method of forming the same | US14771987 | 2014-03-04 | US09719000B2 | 2017-08-01 | Rajesh Kumar; Nikolay Lebedinski; Lyle Andrew Caillouette |
| A hot melt adhesive (HMA), which is solid at room temperature, comprises the reaction product of 5 to 25% by weight of an isocyanate component having an NCO content of from about 20 to about 50% by weight, 75 to 85% by weight of a polyester, and 1 to 10% by weight of a hydroxy-polymer having an OH number of from about 40 to about 50. A method of forming the adhesive comprises the step of combining the isocyanate component, polyester, and hydroxy-polymer to form the adhesive. The adhesive can be used for various purposes, such as for forming an adhesive layer which adhesively couples surfaces together. | ||||||
| 78 | Panel for sheathing system and method | US15196356 | 2016-06-29 | US09689159B2 | 2017-06-27 | John L. Bennett; Joel F. Barker; Rick D. Jordan; Thomas L. Schuman; Nian Ou; Neil C. Swiacki; Kelly R. Flaherty |
| The panel includes a water resistant barrier layer secured atop its outward facing surface. The water resistant barrier layer includes a skid resistant surface. The panels are made of lignocellulosic material. The water resistant and skid resistant surface may include indicia for aligning strips of tape or for aligning fasteners. A method for manufacturing the water resistant building panels is also disclosed and includes the steps of feeding paper onto a forming belt, depositing lignocellulosic material and the binding agent onto the forming belt so as to form a lignocellulosic mat, applying heat and pressure so as to impart the skid resistant surface on the paper, and cutting panels to predetermined sizes. | ||||||
| 79 | Adhesive system for preparing lignocellulosic composites | US14450561 | 2014-08-04 | US09649826B2 | 2017-05-16 | Frank Swiezkowski; Peter Dolan; Carlos Amen-Chen; Joseph Gabriel |
| An adhesive system for preparing lignocellulosic composites comprising a) an aqueous primer composition and, b) a polyurethane adhesive composition, wherein said aqueous primer composition comprises: from 0 to 25 wt. %, by weight of the composition, of polyol selected from the group consisting of water soluble polyols, water dispersible polyols, water emulsifiable polyols and mixtures thereof, wherein said polyols have a molecular weight less than 5000 daltons; and, up to 10 wt. %, by weight of the composition, of surfactant selected from the group consisting of water soluble surfactants, water emulsifiable surfactants and mixtures thereof, with the proviso that the aqueous primer composition must comprise at least one of said polyol or a surfactant having hydroxyl functionality and a molecular weight of less than 5000 daltons. | ||||||
| 80 | MULTILAYER STRUCTURE AND TOUCH PANEL MODULE | US15218518 | 2016-07-25 | US20160334896A1 | 2016-11-17 | Takashi KOIKE; Hiroyuki KOBAYASHI; Tetsuji NISHIDA; Hisashi TSUBATA |
| A multilayer structure has a laminate including a transparent conductive member having a conductive pattern having a mesh structure composed of thin metal wires on a transparent substrate having flexibility, a protective member for protecting the transparent conductive member, and an optically transparent adhesive layer disposed between the transparent conductive member and the protective member. The thickness of the laminate is 100 μm or more and 600 μm or less. The thickness of the adhesive layer is 20% or more of the thickness of the laminate. The thermal shrinkage of the transparent conductive member at 150° C. is 0.5% or less, and a difference between the thermal shrinkage of the transparent conductive member and the thermal shrinkage of the protective member at 150° C. is within 60% of the thermal shrinkage of the transparent conductive member at 150° C. The multilayer structure is used for a touch panel module having a three-dimensional shape. | ||||||
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