| 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 | 陶瓷燃烧板 | CN200810137982.3 | 2008-07-14 | CN101413665A | 2009-04-22 | 伯恩德·H·斯哥万克 |
| 本发明涉及用于红外辐射器的陶瓷燃烧板,该燃烧板以硅酸锂为主成分。本发明的燃烧板含有0.63~7.6wt%的氧化锂,具有耐高温性和极高的耐用性。 | ||||||
| 2 | 制造复合烛芯的系统和方法 | CN201280066246.8 | 2012-11-07 | CN104094055B | 2016-06-15 | 约翰·E·卡格尔; 罗伯特·W·布朗 |
| 用于制造复合烛芯的系统和方法包含用于以大体上相同的速度馈送棉芯和木芯的机构。对所述木芯加热以使所述棉芯上的蜡涂层熔化,且经由压缩轮以及载运芯材料的传动带向所述芯材料施加压力。一旦施加所述压力以形成所述复合芯,便接着将所述芯传送通过切割管,在所述切割管中切割刀片将会把所述芯切割到其所要长度。 | ||||||
| 3 | 烛芯和烛芯夹 | CN201180060544.1 | 2011-12-14 | CN103298919B | 2015-07-22 | J·拉梅克; B·A·拉森; M·A·斯潘格勒 |
| 一种烛芯包括垂直于第二部分的第一部分,以形成具有加号形状的配置的烛芯。一种烛芯夹包括垂直于第二插槽的第一插槽定向,以形成具有加号形状的配置的烛芯夹,所述烛芯夹被调整大小以接收烛芯的加号形状的配置。所述烛芯夹的所述第一插槽被配置来接收所述烛芯的所述第一部分,且所述烛芯夹的所述第二插槽被配置来接收所述烛芯的所述第二部分。所述烛芯和烛芯夹形成夹持总成。一种蜡烛包括由烛芯夹固定在适当位置的加号形状的烛芯。 | ||||||
| 4 | 制造复合烛芯的系统和方法 | CN201280066246.8 | 2012-11-07 | CN104094055A | 2014-10-08 | 约翰·E·卡格尔; 罗伯特·W·布朗 |
| 用于制造复合烛芯的系统和方法包含用于以大体上相同的速度馈送棉芯和木芯的机构。对所述木芯加热以使所述棉芯上的蜡涂层熔化,且经由压缩轮以及载运芯材料的传动带向所述芯材料施加压力。一旦施加所述压力以形成所述复合芯,便接着将所述芯传送通过切割管,在所述切割管中切割刀片将会把所述芯切割到其所要长度。 | ||||||
| 5 | 蜡烛芯 | CN201280058302.3 | 2012-10-16 | CN104094054A | 2014-10-08 | 约翰·E·卡格尔; 谢丽扬·B·汤姆斯 |
| 一个刚性平面芯和一个或多个织物芯被粘附在一起用于蜡烛中。所述织物芯可以是平面织物芯、传统形绳形芯或织物套。所述刚性芯具有预定宽度、长度和厚度且所述平面状织物芯的一些尺寸等于、小于或大于所述刚性芯的平面表面积。通过组合平面织物芯和刚性平面芯两者,可实现火焰高度的一致性,从而提供用于蜡烛的改进芯。 | ||||||
| 6 | 烛芯和烛芯夹 | CN201180060544.1 | 2011-12-14 | CN103298919A | 2013-09-11 | J·拉梅克; B·A·拉森; M·A·斯潘格勒 |
| 一种烛芯包括垂直于第二部分的第一部分,以形成具有加号形状的配置的烛芯。一种烛芯夹包括垂直于第二插槽的第一插槽定向,以形成具有加号形状的配置的烛芯夹,所述烛芯夹被调整大小以接收烛芯的加号形状的配置。所述烛芯夹的所述第一插槽被配置来接收所述烛芯的所述第一部分,且所述烛芯夹的所述第二插槽被配置来接收所述烛芯的所述第二部分。所述烛芯和烛芯夹形成夹持总成。一种蜡烛包括由烛芯夹固定在适当位置的加号形状的烛芯。 | ||||||
| 7 | 複合ロウソク芯を製造するシステムおよび方法 | JP2014540213 | 2012-11-07 | JP2014532797A | 2014-12-08 | ケーグル,ジョン,イー.; ブラウン,ロバート,ダブリュ. |
| 複合ロウソク芯を製造するためのシステムおよび方法は、綿芯および木材芯を実質的に同一の速度で供給するための機構を含む。木材芯は、芯周囲のワックスコーティングの溶融を引き起こすために加熱され、圧力は、圧縮ホイールおよび芯材料を運搬する駆動ベルトを通ってこれらの芯材料に印加される。いったん圧力が印加されて複合芯が形成されると、これらの芯は、切断刃が芯をその所望の長さに切断する切断管を通って送られる。【選択図】図1 | ||||||
| 8 | 複合ロウソク芯を製造するシステムおよび方法 | JP2014540213 | 2012-11-07 | JP6081471B2 | 2017-02-15 | ケーグル,ジョン,イー.; ブラウン,ロバート,ダブリュ. |
| 9 | Hydrophilic porous core for the vaporizable material | JP2011545463 | 2010-01-08 | JP2012514701A | 2012-06-28 | アーサー,マイケル; シュポルラー,ケビン; マオ,グオキャン |
| 本発明は、室内環境などの雰囲気中に気化可能な材料を送達するための親水性多孔性繊維芯を提供する。 芯は、生分解性でもよい。 芯は、合成単成分繊維または天然単成分繊維と任意に組み合わせた、焼結合成二成分繊維で構成される。 芯は、親水性の改良のためにプラズマまたは仕上げ剤で任意に処理される。 芯は、水性および/または非水性の香料またはその他の気化可能な材料を運ぶことができ、熱、対流空気または噴霧化を用いずに空気中にこれらを蒸発させることができる。 | ||||||
| 10 | 蝋燭の芯 | JP2014535989 | 2012-10-16 | JP2014530286A | 2014-11-17 | ケーグル,ジョン,イー.; トーマス,チェリヤン,ビー. |
| 剛性の平坦な芯および1つまたは複数の布の芯は、蝋燭内で使用するために一緒に接着される。布の芯は、平坦な布の芯、従来の形状の糸形状の芯または布シースであってもよい。剛性の芯は、所定の幅、長さ、および厚さであり、平坦な布の芯は、剛性の芯の平坦な表面積に等しい、剛性の芯の平坦な表面積より小さい、または剛性の芯の平坦な表面積より大きいある寸法である。平坦な布の芯と剛性の平坦な芯の両方を組み合わせることにより、炎の高さの一貫性を達成することができ、蝋燭の使用に改良された芯を提供する。【選択図】図3 | ||||||
| 11 | Ceramic burner plate | JP2008181487 | 2008-07-11 | JP2009018988A | 2009-01-29 | SCHWANK BERND H |
| <P>PROBLEM TO BE SOLVED: To provide a ceramic burner plate for an infrared radiator, excellent in high temperature resistance and durability. <P>SOLUTION: The ceramic burner plate for an infrared radiator is composed of a ceramic containing lithium in an amount of 0.63-7.6 wt.% and at least one oxide selected from the group consisting of Al<SB>2</SB>O<SB>3</SB>, SiO<SB>2</SB>, Fe<SB>2</SB>O<SB>3</SB>, TiO<SB>2</SB>, CaO, MgO, K<SB>2</SB>O, Na<SB>2</SB>O, Mn<SB>3</SB>O<SB>4</SB>, Cr<SB>2</SB>O<SB>3</SB>, P<SB>2</SB>O<SB>5</SB>, and ZrO<SB>2</SB>. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 12 | System and Method of Manufacturing a Composite Candle Wick | US14522863 | 2014-10-24 | US20150041068A1 | 2015-02-12 | John E. CAGLE; Robert W. BROWN |
| The system and method for manufacturing the composite candle wick includes a mechanism for feeding the cotton wick and wood wick at substantially the same speeds. The wood wick is heated in order to cause a melting of a wax coating around the cotton wick and pressure is applied to the wick materials through a compression wheel and drive belt which carries the wick materials. Once the pressure is applied to form the composite wick the wicks are then sent through a cutting tube where a cutting blade will cut the wick to its desired length. | ||||||
| 13 | Metallic Wick Assembly | US14279391 | 2014-05-16 | US20140248572A1 | 2014-09-04 | Wei-Long Chen |
| A metallic wick assembly includes at least one mesh member and a sleeve member. The at least one mesh member includes a first length defined between first and second ends thereof. The sleeve member is mounted around the mesh member and includes a second length defined between two longitudinal opposite ends thereof. The second length is less than the first length. A third length is defined between a distal end of the sleeve member and the first end of the mesh member. The sleeve member is slidable with respect to the mesh member to adjust the third length for controlling the flame scale. | ||||||
| 14 | System and Method of Manufacturing a Composite Candle Wick | US13670891 | 2012-11-07 | US20130112346A1 | 2013-05-09 | John E. CAGLE; Robert W. BROWN |
| The system and method for manufacturing the composite candle wick includes a mechanism for feeding the cotton wick and wood wick at substantially the same speeds. The wood wick is heated in order to cause a melting of a wax coating around the cotton wick and pressure is applied to the wick materials through a compression wheel and drive belt which carries the wick materials. Once the pressure is applied to form the composite wick the wicks are then sent through a cutting tube where a cutting blade will cut the wick to its desired length. | ||||||
| 15 | Candle Wick | US13274630 | 2011-10-17 | US20130095440A1 | 2013-04-18 | John E. Cagle; Cheriyan B. Thomas |
| A rigid planar wick and one or more fabric wicks are adhered together for use in candles. The fabric wicks may be planar fabric wicks, traditional shaped string-shaped wicks or a fabric sheath. The rigid wick is of a predetermined width, length, and thickness and the planar fabric wick is of some dimension equal to, less than, or greater than the planar surface area of the rigid wick. By combining both a planar fabric wick and a rigid planar wick, consistency in flame heights can be achieved, providing an improved wick for candle use. | ||||||
| 16 | Hydrophilic Porous Wicks for Vaporizable Materials | US12684547 | 2010-01-08 | US20100176210A1 | 2010-07-15 | Michael Arthur; Kevin Sporrer; Guoqiang Mao |
| This invention provides a hydrophilic porous fiber wick for delivering vaporizable material into the atmosphere, such as a room environment. The wick may be biodegradable. The wick is comprised of a sintered synthetic bicomponent fibers, optionally combined with synthetic monocomponent fibers or natural monocomponent fibers. The wick is optionally treated with plasma or finishing agents for improved hydrophilicity. The wick can wick aqueous and/or non-aqueous-based fragrances or other vaporizable materials and evaporate them into the air without the use of heat, convection air, or atomization. | ||||||
| 17 | Ceramic Burner Plate | US12171374 | 2008-07-11 | US20090029306A1 | 2009-01-29 | Bernd H. Schwank |
| The present invention relates to a ceramic burner plate for infrared radiators which includes a lithium silicate as a main constituent. The burner plates according to the invention can have a content of lithium oxide within the range of 0.63% by weight to 7.6% by weight and they exhibit a high temperature resistance and are extremely durable. | ||||||
| 18 | Multi-component flow regulator wicks and methods of making multi-component flow regulator wicks | US10465286 | 2003-06-19 | US20040041285A1 | 2004-03-04 | Jian Xiang; Bennett Ward; Curtis Fallecker; Ulises Sanroma; Raymond Nelson; Thomas Harris; Jeffrey Green |
| A wicking device includes a core material and a polymeric shell material wherein the core material includes bonded fibrous materials providing a tortuous path for a gas and/or liquid, the core material being permeable to the gas and/or liquid and the shell material being impermeable to the gas and/or liquid. | ||||||
| 19 | System and method of manufacturing a composite candle wick | US13670891 | 2012-11-07 | US08926781B2 | 2015-01-06 | John E. Cagle; Robert W. Brown |
| The system and method for manufacturing the composite candle wick includes a mechanism for feeding the cotton wick and wood wick at substantially the same speeds. The wood wick is heated in order to cause a melting of a wax coating around the cotton wick and pressure is applied to the wick materials through a compression wheel and drive belt which carries the wick materials. Once the pressure is applied to form the composite wick the wicks are then sent through a cutting tube where a cutting blade will cut the wick to its desired length. | ||||||
| 20 | Metallic Wick Assembly | US13740316 | 2013-01-14 | US20140087318A1 | 2014-03-27 | Wei-Long Chen |
| A metallic wick assembly includes at least one mesh member and a sleeve member. The at least one mesh member includes a first length defined between first and second ends thereof. The sleeve member is mounted around the mesh member and includes a second length defined between two longitudinal opposite ends thereof. The second length is less than the first length. A third length is defined between a distal end of the sleeve member and the first end of the mesh member. The sleeve member is slidable with respect to the mesh member to adjust the third length for controlling the flame scale. | ||||||
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