| 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 | 水压机器 | CN201610480087.6 | 2016-06-27 | CN106286182A | 2017-01-04 | 威尔曼·弗里德里克森; 斯蒂格·K·安德森; 弗兰克·霍尔姆·伊韦尔森 |
| 公开了一种水压机器(1),所述水压机器具有至少两个相对于彼此能够移动的部件,所述部件中的一个具有由具有减摩性能的塑料(5,12,13,15,19)构成的表面。使用该设计在水压机器的实例中的磨损应当保持较低水平。为此,所述塑料(5,12,13,15,19)被形成为具有陶瓷填料的聚合物。 | ||||||
| 2 | 用于井下动力钻具的定子、其制造方法及包括该定子的井下动力钻具 | CN201080060818.2 | 2010-09-30 | CN102713126A | 2012-10-03 | H·阿克巴里; J·拉迈尔; T·卡缪尔 |
| 本发明描述了井下动力钻具及其制造方法,其中制造用于井下动力钻具的定子的方法包括提供具有与定子的所需内几何特征互补的外几何特征的心轴和施加柔性套管到心轴上。另外,提供了具有内表面的定子管和将粘结剂施加到定子管的内表面上。柔性套管和心轴置于定子管内,且加强材料引入定子管中以填充柔性套管与定子管之间的空间。加强材料固化并用于结合加强材料到柔性套管和定子管上。 | ||||||
| 3 | 用于风轮机转子叶片的雷电保护系统及制造该叶片的方法 | CN200780016518.2 | 2007-05-08 | CN101438055A | 2009-05-20 | K·贝特尔森 |
| 本发明涉及一种包括叶片末端(10)和雷电保护系统的风轮机转子叶片(5)。该转子叶片包括在叶片表面上与叶片末端(10)的远端相距一外部距离(Lex)的至少一个接闪器(7),以及与叶片末端(10)的远端相距第一内部距离(Li1)布置在转子叶片(5)内部的接闪器底座(11)。为避免在雷电不击中接收器(7)的情况下从叶片表面(18)到接闪器底座(11)起电弧,该转子叶片还包括,与周围空气的电特性相比较,用于在接闪器底座(11)处改变转子叶片(5)的至少一个电特性的装置(22a)。所述装置通过例如聚氨酯填充叶片的一部分。本发明还涉及一种用于制造风轮机转子叶片(5)的方法。 | ||||||
| 4 | 用于井下动力钻具的定子、其制造方法及包括该定子的井下动力钻具 | CN201080060818.2 | 2010-09-30 | CN102713126B | 2015-08-05 | H·阿克巴里; J·拉迈尔; T·卡缪尔 |
| 本发明描述了井下动力钻具及其制造方法,其中制造用于井下动力钻具的定子的方法包括提供具有与定子的所需内几何特征互补的外几何特征的心轴和施加柔性套管到心轴上。另外,提供了具有内表面的定子管和将粘结剂施加到定子管的内表面上。柔性套管和心轴置于定子管内,且加强材料引入定子管中以填充柔性套管与定子管之间的空间。加强材料固化并用于结合加强材料到柔性套管和定子管上。 | ||||||
| 5 | 用于井下动力钻具的定子、其制造方法及包括该定子的井下动力钻具 | CN201080060817.8 | 2010-09-30 | CN102695844A | 2012-09-26 | H·阿克巴里; J·拉迈尔; O·辛特 |
| 本发明描述了制造用于井下动力钻具的定子的方法,该方法包括提供具有内表面的定子管和向定子管的内表面施加粘结剂的步骤。另外,心轴定位于定子管内,该心轴具有与用于定子的所需内几何特征互补的外几何特征。此外,加强材料引入定子管中以填充心轴与定子管的内表面之间的空间并随后固化以结合加强材料到定子管的内表面上。心轴然后从结合的定子管和加强材料移除,从而制造定子。 | ||||||
| 6 | 聚酰胺复合材料在制备泵或阀方面的应用 | CN200410091148.7 | 2004-11-19 | CN1631981A | 2005-06-29 | 竺华锋; 竺蓉 |
| 本发明涉及聚酰胺复合材料在制备泵或阀方面的应用,特别是涉及用聚己内酰胺复合材料制造泵或阀的方法以及制得的产品。将包含60-80%己内酰胺,2-30%填充料,1.4-3%的金属钠或氢氧化钠和3-6%助催化剂等的聚合原料,在反应容器中搅拌混合均匀后,浇铸聚合成型,即可得到本发明的产品。用本发明的聚酰胺工程塑料制得的泵或阀,机械性能好,其拉伸强度等于或大于97MPa,耐磨性为钢质产品的2~3倍,抗冲击、耐酸碱、自润滑性和回弹性良好,特别是吸水性小,比一般工程塑料的吸水率低2~2.5倍,制品尺寸稳定,可用于制备各种用途的泵或阀。 | ||||||
| 7 | 具有浮力腔的浸没式水电涡轮机 | CN200780026535.4 | 2007-07-13 | CN101529086B | 2012-09-05 | 赫伯特·威廉斯 |
| 一种水电涡轮机,其具有设置在定子壳体内的转子,该转子具有由定子壳体内的通道接收的环形外轮缘,改进包括浮力转子,该转子优选地具有设置在转子内的浮力腔。该浮力腔可设置在环形外轮缘、叶片或环形内轮缘、或其组合内。优选地,浮力腔填充有比重为1或更小的材料,且最优选地,该填充材料为增加了转子的刚性的聚合物泡沫。 | ||||||
| 8 | 可用于制造转子叶片圆柱盖的一种制造连续层压片的方法 | CN200610126234.6 | 2006-08-17 | CN1915649B | 2012-08-22 | R·阿雷尔特 |
| 一种制造连续层压片的方法,尤其适合于风能涡轮转子叶片的圆柱盖或其他部件,所述方法包括步骤:提供多个平行的纤维(12);将所述纤维(12)嵌入可固化的基体材料(16);固化所述基体材料(16),得到具有上和下主表面(28,30)的纤维增强的层压片(20);和在所述层压片(20)的上和下主表面(28,30)其中至少一个形成沟槽(32,34),其中所述上和/或下主表面(28,30)的沟槽(32,34)倾斜于纤维(12)的方向。 | ||||||
| 9 | 用于风轮机转子叶片的雷电保护系统及制造该叶片的方法 | CN200780016518.2 | 2007-05-08 | CN101438055B | 2012-07-25 | K·贝特尔森 |
| 本发明涉及一种包括叶片末端(10)和雷电保护系统的风轮机转子叶片(5)。该转子叶片包括在叶片表面上与叶片末端(10)的远端相距一外部距离(Lex)的至少一个接闪器(7),以及与叶片末端(10)的远端相距第一内部距离(Li1)布置在转子叶片(5)内部的接闪器底座(11)。为避免在雷电不击中接收器(7)的情况下从叶片表面(18)到接闪器底座(11)起电弧,该转子叶片还包括,与周围空气的电特性相比较,用于在接闪器底座(11)处改变转子叶片(5)的至少一个电特性的装置(22a)。所述装置通过例如聚氨酯填充叶片的一部分。本发明还涉及一种用于制造风轮机转子叶片(5)的方法。 | ||||||
| 10 | 具有浮力腔的浸没式水电涡轮机 | CN200780026535.4 | 2007-07-13 | CN101529086A | 2009-09-09 | 赫伯特·威廉斯 |
| 一种水电涡轮机,其具有设置在定子壳体内的转子,该转子具有由定子壳体内的通道接收的环形外轮缘,改进包括浮力转子,该转子优选地具有设置在转子内的浮力腔。该浮力腔可设置在环形外轮缘、叶片或环形内轮缘、或其组合内。优选地,浮力腔填充有比重为1或更小的材料,且最优选地,该填充材料为增加了转子的刚性的聚合物泡沫。 | ||||||
| 11 | 可用于制造转子叶片圆柱盖的一种制造连续层压片的方法 | CN200610126234.6 | 2006-08-17 | CN1915649A | 2007-02-21 | R·阿雷尔特 |
| 一种制造连续层压片的方法,尤其适合于风能涡轮转子叶片的圆柱盖或其他部件,所述方法包括步骤:提供多个平行的纤维(12);将所述纤维(12)嵌入可固化的基体材料(16);固化所述基体材料(16),得到具有上和下主表面(28,30)的纤维增强的层压片(20);和在所述层压片(20)的上和下主表面(28,30)其中至少一个形成沟槽(32,34),其中所述上和/或下主表面(28,30)的沟槽(32,34)倾斜于纤维(12)的方向。 | ||||||
| 12 | 聚酰胺复合材料在制备泵或阀方面的应用 | CN200410091148.7 | 2004-11-19 | CN1240779C | 2006-02-08 | 竺华锋; 竺蓉 |
| 本发明涉及聚酰胺复合材料在制备泵或阀方面的应用,特别是涉及用聚己内酰胺复合材料制造泵或阀的方法以及制得的产品。将包含60-80%己内酰胺,2-30%填充料,1.4-3%的金属钠或氢氧化钠和3-6%助催化剂等的聚合原料,在反应容器中搅拌混合均匀后,浇铸聚合成型,即可得到本发明的产品。用本发明的聚酰胺工程塑料制得的泵或阀,机械性能好,其拉伸强度等于或大于97Mpa,耐磨性为钢质产品的2~3倍,抗冲击、耐酸碱、自润滑性和回弹性良好,特别是吸水性小,比一般工程塑料的吸水率低2~2.5倍,制品尺寸稳定,可用于制备各种用途的泵或阀。 | ||||||
| 13 | Inundation hydropower turbine having a buoyancy chamber | JP2009519840 | 2007-07-13 | JP2009543970A | 2009-12-10 | ウィリアムズ,ハーバート |
| ステータハウジングの内部にロータが配置され、このロータが、ステータハウジングのチャネルによって収容された環状の外側リムを有する水力発電タービンにおいて、ロータの内部に浮力室を設け、ロータに浮力を持たせる。 この浮力室は、環状の外側リム、ブレード若しくは環状の内側リムに形成し、又はこれらのうち複数に形成することができる。 好ましくは、浮力室を1以下の比重を有する素材で充填し、最も好ましくは、この充填材として、ロータに剛性を付加するポリマーフォームを採用する。
【選択図】 図4 |
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| 14 | Slide member for compressor | JP2005034522 | 2005-02-10 | JP2006045493A | 2006-02-16 | SHIBUYA SANEHIRO; SHIMO TOSHIHISA; HAYASHI HIDETAKA; YOSHIDA HIROHIKO |
| <P>PROBLEM TO BE SOLVED: To provide a slide member having a surface containing a polyaryl ketone resin having an excellent adhesiveness with a metallic base material even after a low temperature molding. <P>SOLUTION: The slide member comprises a metallic base material, a middle layer, that is formed on at least one surface of the base material and contains a resin composition comprised of a thermoplastic polyimide resin and a polyaryl ketone resin, and a surface layer that is formed on the middle layer and contains the polyaryl ketone resin. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 15 | Submerged hydroelectric turbines having buoyancy chambers | US12373466 | 2007-07-13 | US08308422B2 | 2012-11-13 | Herbert Williams |
| In a hydroelectric turbine having a rotor disposed within a stator housing, the rotor having an annular outer rim received by a channel in the stator housing, the improvement comprising a buoyant rotor, the rotor preferably having buoyancy chambers disposed within the rotor. The buoyancy chambers may be disposed within the annular outer rim, the blades or an annular inner rim, or combinations thereof. Preferably, the buoyancy chambers are filled with a material having a specific gravity of one or less, and most preferably the filler material is a polymer foam that adds rigidity to the rotor. | ||||||
| 16 | STATORS FOR DOWNHOLE MOTORS, METHODS FOR FABRICATING THE SAME, AND DOWNHOLE MOTORS INCORPORATING THE SAME | US12617872 | 2009-11-13 | US20110116961A1 | 2011-05-19 | HOSSEIN AKBARI; Julien Ramier; Tony Camuel |
| The present invention recites a downhole motor and method of fabricating the same, wherein the method for fabricating a stator for a downhole motor includes the providing of a mandrel having an outer geometry that is complimentary to a desired inner geometry for the stator and the application of a flexible sleeve over the mandrel. Additionally, a stator tube having an interior surface is provided and a bonding agent is applied to the interior surface of the stator tube. The flexible sleeve and the mandrel are placed in the stator tube and a reinforcing material is introduced into the stator tube to fill space between the flexible sleeve and the stator tube. The reinforcing material is solidified and serves to bond the reinforcing material to the flexible sleeve and the stator tube. | ||||||
| 17 | SUBMERGED HYDROELECTRIC TURBINES HAVING BUOYANCY CHAMBERS | US12373466 | 2007-07-13 | US20100025998A1 | 2010-02-04 | Herbert Williams |
| In a hydroelectric turbine having a rotor disposed within a stator housing, the rotor having an annular outer rim received by a channel in the stator housing, the improvement comprising a buoyant rotor, the rotor preferably having buoyancy chambers disposed within the rotor. The buoyancy chambers may be disposed within the annular outer rim, the blades or an annular inner rim, or combinations thereof. Preferably, the buoyancy chambers are filled with a material having a specific gravity of one or less, and most preferably the filler material is a polymer foam that adds rigidity to the rotor. | ||||||
| 18 | Compressor piston ball pocket coating | US11327988 | 2006-01-09 | US07281465B2 | 2007-10-16 | Theodore R. Cochran; Mingguang Zhu; Timothy M. Gabel |
| The invention is applied to a compressor assembly wherein a coating is applied to the pocket in the piston for sliding engagement with a shoe for reciprocating the piston. The coating is a composite of solid particles of a lubricant, suspended in an adhesive, bonded to the to the aluminum alloy defining the pocket. More specifically, the coating comprises particles of polytetrafluoroethylene (PTFE) suspended in an epoxy resin having a low cross-linking characteristic. The particles of PTFE are sub-micron in size and the ratio of PTFE to epoxy resin is optimally one to one. The thickness of the coating is between two and ten microns and preferably substantially four microns. | ||||||
| 19 | Compressor piston ball pocket coating | US11327988 | 2006-01-09 | US20070157799A1 | 2007-07-12 | Theodore Cochran; Mingguang Zhu; Timothy Gabel |
| The invention is applied to a compressor assembly wherein a coating is applied to the pocket in the piston for sliding engagement with a shoe for reciprocating the piston. The coating is a composite of solid particles of a lubricant, suspended in an adhesive, bonded to the to the aluminum alloy defining the pocket. More specifically, the coating comprises particles of polytetrafluoroethylene (PTFE) suspended in an epoxy resin having a low cross-linking characteristic. The particles of PTFE are sub-micron in size and the ratio of PTFE to epoxy resin is optimally one to one. The thickness of the coating is between two and ten microns and preferably substantially four microns. | ||||||
| 20 | Lubricant pump and method of producing | US10107918 | 2002-03-27 | US06592348B1 | 2003-07-15 | Stephen D. Johnson |
| A rotary type lubrication pump for a vehicle transfer case and a method of producing the lubrication pump, the lubrication pump having an inner gear and an outer gear produced by molding a synthetic polymer, and a pump body and a pump cover produced by stamping steel. | ||||||
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