子分类:
| 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 | 石膏ボードおよび石膏ボードの作製方法 | JP2012552365 | 2011-02-08 | JP5758917B2 | 2015-08-05 | ハメル、ハンス−ウルリヒ; シェラー、ロタール; シュティッヒ、ディートマール |
| 62 | 粘接着層及び粘接着シート | JP2013120254 | 2013-06-06 | JP5644896B2 | 2014-12-24 | 谷口 貴久; 貴久 谷口; 健太郎 星 |
| 63 | 部分的に養生された半凝固状態の基層の上に1つの層を置くことによって生産される積層品 | JP2014521878 | 2012-07-27 | JP2014527477A | 2014-10-16 | アレキサンダー ジェームズ サドラー,ウィリアム |
| 下地の少なくとも1つの表面にスラブ製品を施すことを含む、積層品を生産する方法であって、前記スラブ製品が半凝固状態にあるときに前記スラブ材の上に下地を置くこと、その後で、前記積層品を養生させることを含む方法。好ましくは、前記スラブはセメント系であり、前記下地は、メーソンリー製品で、すでに製造および養生されている、例えばタイル、モザイク、ベンチトップなどである。この方法は、あるいは、最初にセメントスラブを打設し、その後でそれが部分的に養生したときに、その上にセメント系の下地を打設し、それから、組立品全体がなおも部分的に養生した半凝固状態にある間に、組立品全体を小さな断片に切断することもできる。【選択図】図1 | ||||||
| 64 | A method for manufacturing a gypsum board and gypsum board | JP2012552365 | 2011-02-08 | JP2013518803A | 2013-05-23 | ハメル、ハンス−ウルリヒ; シェラー、ロタール; シュティッヒ、ディートマール |
| 石膏マトリクスおよび0.1〜10重量%の炭素粒子を含み、該炭素粒子の粒径(d50)が0.5〜4mmの範囲内である石膏ボード。 | ||||||
| 65 | Improved matte surface finish gypsum board | JP2006509928 | 2004-04-12 | JP2006524762A | 2006-11-02 | エス. スミス、ラッセル; ジー. ランドール、ブライアン |
| 繊維マット間に挟持され、両マットと対向する凝結石膏芯材製の石膏ボードを備える耐水性構造のパネルであって、前記両マットのうち一方の開放面は、水性コーティング組成物としてその表面に塗布される無機色素と、疎水性の耐紫外線高分子ラテックス接着剤と、必要に応じて無機接着結合剤との組合せにより予備コーティングされ、水性コーティング組成物が乾燥して固められると、マットのほとんど全ての繊維がコーティングから突出して見えない程度にマットが被覆される。 | ||||||
| 66 | Fiber cement / plaster laminated composite building material | JP2001529932 | 2000-10-05 | JP2003511274A | 2003-03-25 | グリーソン、ジェイムズ、エー.; フィッシャー、マーク、ティー.; マークリー、ドナルド、ジェー. |
| (57)【要約】 一体化積層複合材を形作るように、石膏(20)に積層された繊維セメント(10)を備える建材(40)が提供される。 この一体化積層複合材は耐火性および耐表面損傷性および耐衝撃性が向上しているが、ツーピースシステムの過剰な重さおよび厚さを有することなくこれらの性質を達成する。 さらに、厚さが薄くなっているので、好ましい積層建材はツーピスシステムより切断が容易で取付けが早く容易である。 さらに、繊維セメントと石膏を一体化積層材に成形することにより、2つの別個の建材を取り付ける必要がなくなるので、取り付けが簡単になる。 一実施形態において、厚さが1/8インチの繊維セメントシートに積層された厚さが1/2インチの石膏パネルを備える、厚さが5/8インチの積層複合材が提供され、この積層複合材は、ASTM E119に従って測定された場合、1時間の耐火等級を有する。 | ||||||
| 67 | JPH04505732A - | JP51577990 | 1990-11-26 | JPH04505732A | 1992-10-08 | MAROCCO GIUSEPPE |
| 68 | 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 |
| 69 | High-strength structural elements using metal foam for portable information handling systems | US15051480 | 2016-02-23 | US10046388B2 | 2018-08-14 | Deeder Mohammad Aurongzeb |
| Methods for manufacturing a metal foam and a metal foam reinforced back plate may be used to provide high-strength and low weight structural elements in portable information handling systems. A method for manufacturing a metal foam may include selectively adding iridium oxide and ceramic particulate to a light-metal allow to create desired mechanical properties of the metal foam. | ||||||
| 70 | ILLUMINATION SYSTEM | US15888411 | 2018-02-05 | US20180156429A1 | 2018-06-07 | Pietro Valerio Carlet; Gianni Deplano |
| The present invention relates to an illumination system (100) comprising at least one illumination device (1) comprising a casing (2) wherein at least one light source (3) suitable for illuminating is housed, at least a power receptor (10) and at least an electronic board (9) adapted to receive, elaborate and transmit data. Moreover, said illumination system (100) also comprises at least one command interface (80A, 80B) adapted to communicate with said electronic board (9) of said at least one illumination device (1). | ||||||
| 71 | PROCESS FOR PRODUCING HEAT-EXPANDABLE MICROSPHERES AND APPLICATION THEREOF | US15104628 | 2014-12-15 | US20160310924A1 | 2016-10-27 | Daisuke NAKATOMI; Kazunari UEDA; Katsushi MIKI |
| A process for producing heat-expandable microspheres including a thermoplastic resin shell and a blowing agent encapsulated therein. The process includes the steps of dispersing a polymerizable component and the blowing agent in an aqueous dispersion medium having a pH of 7 or less and containing a fine-particle metal compound having a mean particle size ranging from 1.0 to 10 nm, and polymerizing the polymerizable component. The amount of the fine-particle metal compound ranges from 0.15 to 20 parts by weight to 100 parts by weight of the total amount of the polymerizable component and the blowing agent. Also disclosed are heat-expandable microspheres produced by dispersing a polymerizable component and a blowing agent in an aqueous dispersion medium containing colloidal silica and polymerizing the polymerizable component. Also disclosed is a composition containing the heat-expandable microspheres and a base component, a formed product, a slurry composition for use in forming a negative electrode of a lithium-ion secondary battery and a negative electrode. | ||||||
| 72 | CALCIUM SULPHATE-BASED PRODUCTS | US14654300 | 2013-12-19 | US20150329423A1 | 2015-11-19 | Robin FISHER |
| This invention relates to improved high temperature resistant calcium sulphate-based products e.g. gypsum wallboard products and, in particular, to products having reduced shrinkage at high temperatures. The invention provides calcium sulphate-based product comprising gypsum and a shrinkage resistance additive. The shrinkage resistance additive is melamine polyphosphate or melamine pyrophosphate. | ||||||
| 73 | GYPSUM BOARD | US14610878 | 2015-01-30 | US20150147546A1 | 2015-05-28 | Bangji CAO; Weixin SONG; Cesar CHAN; Scott LECKIE |
| Described herein is a composite board and a method of producing a composite board, the board having increased fire endurance. The board comprises a sheet having a thickness greater than about 0.014 inches, and a thermal conductivity of about 0.1 w/(m.k.) or less. The composite board can be part of a wall assembly comprising two boards defining an interior cavity, the sheet facing the interior cavity. | ||||||
| 74 | Web Frame | US14395708 | 2013-05-10 | US20150121791A1 | 2015-05-07 | Owen Derek Barr |
| The web frame is a bonded assembly of panels and porous blanket layers, separated by an arrangement of isolated spacers. The panels and spacers are covered with a bonding means. A coating covers inner surfaces of the panels and spacers. The porous blanket is compressed and pinned between these panels, by spacers that are arranged as isolated nodes or columns The spacers have sharpened ends that penetrate the blanket and connect with the opposing panel. The web frame assembly provides thermal and sound insulation for buildings and other solid objects. These web frames are lightweight, durable, and permeable. Capillaries and passages throughout the panels and fibres of the blanket allow passage of moisture and air, thereby assisting in the management of condensation within the web frame. | ||||||
| 75 | LAMINATED PRODUCT PRODUCED BY PLACING ONE LAYER ONTO A SEMI SET PARTIALLY CURED BASE LAYER | US14234549 | 2012-07-27 | US20140199553A1 | 2014-07-17 | William Alexander James Sadler |
| A method for producing a laminated product including applying a slab product to at least one surface of a substrate, the method including placing the substrate onto the slab material when the slab product is in a semi set partially cured state, then allowing the laminated product to cure. Preferably the slab is cement based and the substrate is a masonry product, already manufactured and cured, e.g., tiles, mosaics, bench tops. The method may alternatively cast a cementitious slab first, and then when that is partially cured pour the cementitious substrate onto it, then cutting the whole assembly into smaller pieces while the whole assembly is still in a partially cured semi set state. | ||||||
| 76 | Composite pre-formed construction articles | US11361189 | 2006-02-24 | US08752348B2 | 2014-06-17 | Jay Bowman |
| A composite building panel that includes a central body, substantially parallelepipedic in shape, containing an expanded polymer matrix, having opposite faces, a top surface, and a bottom surface; at least one embedded framing stud longitudinally extending across the central body between the opposite faces, having a first end embedded in the expanded polymer matrix, a second end extending away from the bottom surface of the central body, and one or more expansion holes in the embedded studs between the first end of the embedded stud and bottom surface through which the polymer matrix expands. A concrete layer can optionally cover a portion of the top surface and/or bottom surface. The building panel can be positioned perpendicular to a structural wall and/or foundation to provide a floor panel. The second end of the framing studs can be embedded in a second central body to provide an insulated concrete form. | ||||||
| 77 | Easily replaceable ceramic tile floor | US13004329 | 2011-01-11 | US08590269B2 | 2013-11-26 | Joseph D. D'Agostino |
| An article for applying to a floor substrate for preparing the floor substrate for laying of ceramic tiles by bonding ceramic tiles to the article. The article comprises a backer board having a lower surface for application to a floor substrate and an upper surface, a sheet, and a releasable adhesive bonding the sheet to the upper surface of the backer board. The sheet covers the entirety of the upper surface of the backer board. After the article is applied to the floor substrate, ceramic tiles are then bonded to the sheet. For replacement of the ceramic floor, the releasable adhesive allows the sheet with the ceramic tiles attached to be easily removable from the backer board. A method for laying ceramic tiles comprising laying at least one sheet on a floor substrate so that it floats on the floor substrate, and bonding a plurality of ceramic tiles to the at least one sheet. | ||||||
| 78 | Structural Sandwich Panel and Method of Manufacture Thereof | US13519985 | 2010-12-23 | US20120276364A1 | 2012-11-01 | Stephen Kennedy; Neil Little |
| A standard sandwich panel has forms within its core. The forms are made of a lightweight material that is hydrophobic, e.g. polyisocyanurate. The rest of the core is made of a material that has sufficient strength to transfer shear forces between faceplates of the panel. The main core material can be a compact thermoplastic elastomer. | ||||||
| 79 | Material and method for providing insulation and drainage to a foundation wall | US13023818 | 2011-02-09 | US08192833B2 | 2012-06-05 | Steven F. Nielsen; Allan Marcus Dellinger; Lindsay Castles; Bryan Thomas |
| A material and method for insulating and providing a drainage path for a foundation wall includes a non-woven thermoplastic board being for insulating and providing a drainage path for a foundation wall. The non-woven thermoplastic board has a thermal resistance of an R-value per inch thickness of at least 1. The non-woven thermoplastic board also has a vertical drainage ability per inch thickness of at least 135 Gallons/Hour/Lineal-Foot/inch at a pressure of 500 pounds per square foot (psf). | ||||||
| 80 | Composite pre-formed construction articles | US13034939 | 2011-02-25 | US07963080B1 | 2011-06-21 | Jay Bowman |
| A composite building panel that includes a central body, substantially parallelepipedic in shape, containing an expanded polymer matrix, having opposite faces, a top surface, and a bottom surface; at least one embedded framing stud longitudinally extending across the central body between the opposite faces, having a first end embedded in the expanded polymer matrix, a second end extending away from the bottom surface of the central body, and one or more expansion holes in the embedded studs between the first end of the embedded stud and bottom surface through which the polymer matrix expands. A concrete layer can optionally cover a portion of the top surface and/or bottom surface. The building panel can be positioned perpendicular to a structural wall and/or foundation to provide a floor panel. The second end of the framing studs can be embedded in a second central body to provide an insulated concrete form. | ||||||
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