| 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 | 用于保持构件的端部的固定装置 | CN200980137423.5 | 2009-07-23 | CN102165189B | 2014-01-15 | 珀·E·芬格 |
| 用于诸如风力涡轮机塔段、风力涡轮机的叶片或毂的构件的端部(6、8、10、12)的附接的固定装置。所述构件2、2’的特性是它们在端部中包括凸缘(40),迄今为止该凸缘通常用于通过上紧穿过固定装置和凸缘中的孔的常用螺栓而附接固定装置。为了实际上实现夹紧,并且为了能够补偿凸缘中的不同孔图案,已经开发出具有补偿能力以便将孔布置在固定装置中的不同的固定装置,这已经在安装已知固定装置中导致慢的组装工作,以及仍然不能使已知的固定装置适应所有孔图案和凸缘尺寸。通过本发明,这里通过详细说明固定装置(4)公开了一种关于所述问题的解决方案,该固定装置提供用于具有凸缘的构件的端部的保持,而与凸缘直径和孔图案无关,并且该固定装置安装也较快。另外,本发明提供了一种用来夹紧凸缘端部以与竖立框架部分(16、116)牢固附接的可能性,和为操纵台(14、36)和所述竖立框架部分(16、116)之间的稳定连接提供可能性的紧固装置(80)。 | ||||||
| 2 | 用于放置结构的组件的装置和方法 | CN201380066727.3 | 2013-12-20 | CN104968597B | 2017-07-11 | 艾蒂安尼·克里曼斯 |
| 用于放置结构尤其是风力涡轮机的组件的装置(10),包括:放置在表面上的起重装置,其臂(6)设有具有用于放置的组件的连接装置的起重索,其中,臂(6)和自由悬挂的起重索(7)限定出提升平面。臂包括用于连接装置的导引装置(10),其中,导引装置(10)通过可沿臂(6)的纵向轴线移动的移动装置(8)与臂(6)连接。导引装置(10)用于限制连接装置在横交提升平面延伸的方向上移动,并进一步包括抓取结构(30),抓取结构(30)用于在位于臂(6)附近的位置与远离臂(6)的位置之间和/或在远离臂(6)的位置与位于臂(6)附近的位置之间平行于提升平面接纳和移动连接装置。本发明还涉及使用本发明的装置的方法。 | ||||||
| 3 | 用于放置结构的组件的装置和方法 | CN201380066727.3 | 2013-12-20 | CN104968597A | 2015-10-07 | 艾蒂安尼·克里曼斯 |
| 用于放置结构尤其是风力涡轮机的组件的装置(10),包括:放置在表面上的起重装置,其臂(6)设有具有用于放置的组件的连接装置的起重索,其中,臂(6)和自由悬挂的起重索(7)限定出提升平面。臂包括用于连接装置的导引装置(10),其中,导引装置(10)通过可沿臂(6)的纵向轴线移动的移动装置(8)与臂(6)连接。导引装置(10)用于限制连接装置在横交提升平面延伸的方向上移动,并进一步包括抓取结构(30),抓取结构(30)用于在位于臂(6)附近的位置与远离臂(6)的位置之间和/或在远离臂(6)的位置与位于臂(6)附近的位置之间平行于提升平面接纳和移动连接装置。本发明还涉及使用本发明的装置的方法。 | ||||||
| 4 | 用于保持构件的端部的固定装置 | CN200980137423.5 | 2009-07-23 | CN102165189A | 2011-08-24 | 珀·E·芬格 |
| 用于诸如风力涡轮机塔段、风力涡轮机的叶片或毂的构件的端部(6、8、10、12)的附接的固定装置。所述构件2、2’的特性是它们在端部中包括凸缘(40),迄今为止该凸缘通常用于通过上紧穿过固定装置和凸缘中的孔的常用螺栓而附接固定装置。为了实际上实现夹紧,并且为了能够补偿凸缘中的不同孔图案,已经开发出具有补偿能力以便将孔布置在固定装置中的不同的固定装置,这已经在安装已知固定装置中导致慢的组装工作,以及仍然不能使已知的固定装置适应所有孔图案和凸缘尺寸。通过本发明,这里通过详细说明固定装置(4)公开了一种关于所述问题的解决方案,该固定装置提供用于具有凸缘的构件的端部的保持,而与凸缘直径和孔图案无关,并且该固定装置安装也较快。另外,本发明提供了一种用来夹紧凸缘端部以与竖立框架部分(16、116)牢固附接的可能性,和为操纵台(14、36)和所述竖立框架部分(16、116)之间的稳定连接提供可能性的紧固装置(80)。 | ||||||
| 5 | 运输风力涡轮机塔架的方法 | CN201110022140.5 | 2011-01-18 | CN102145790A | 2011-08-10 | H·斯蒂斯达尔 |
| 本发明涉及用于风力涡轮机塔架的运输方法。根据本发明,节段的纵轴线在运输期间基本上水平取向。在运输期间,通过施加到该塔架节段的壁的力来使塔架节段在其横截面中变形。 | ||||||
| 6 | 用于固定塔部分的凸缘安装 | CN200910167493.7 | 2009-08-25 | CN101660485A | 2010-03-03 | H·克努森; J·马德森 |
| 本发明涉及用于固定塔部分的凸缘安装,其描述了一种用于将保持元件(105)(特别是用于风力涡轮机元件的保持元件(105))安装至支撑装置(108)的夹持装置(100)。夹持装置(100)包括夹持元件(102)、固定元件(103)和具有至少一个固定部分(104)的安装元件(101)。安装元件(101)适于固定于支撑装置(108)。夹持元件(102)适于将保持元件(105)夹紧至安装元件(101)。固定元件(103)适于向夹持元件(102)提供夹紧力(F),以提供保持元件(105)和安装元件(101)之间的静摩擦力。固定元件(103)适于灵活地固定于安装元件(101)的至少一个灵活的固定部分(104)上。 | ||||||
| 7 | Method for replacing a permanent magnet of a wind turbine generator | US14063352 | 2013-10-25 | US09470204B2 | 2016-10-18 | Henrik Stiesdal |
| A method is provided for replacing a permanent magnet of a generator of a wind turbine from a first position to a second position. A container is provided having a shell and an opening through the shell. The opening defines an open space for storing the permanent magnet. The open space is surrounded by the shell, and the shell having a thickness that provides that the permanent magnet does not come close enough to other magnetic material to exert significant force on it. The method involves placing the permanent magnet from the first position into the container, transporting the container with the permanent magnet to the second position, removing the permanent magnet from the container, and placing the permanent magnet in the second position. | ||||||
| 8 | Wind turbine nacelle, transport system for a wind turbine nacelle and method for transporting a wind turbine nacelle | US13151582 | 2011-06-02 | US09127647B2 | 2015-09-08 | Henning Poulsen |
| A wind turbine nacelle is provided. The wind turbine nacelle includes a longitudinal extension and a bottom part. The longitudinal extension has a rear end and a front end. At the bottom part, an opening is located which serves as an interface to a tower of a wind turbine at a designated assembly situation of the nacelle. A first detachable leg arrangement is attached to at least one of the front end and the rear end. A second detachable leg arrangement is attached at the bottom part. Further embodiments are directed to a transport system for a wind turbine nacelle and to a method for transporting a wind turbine nacelle. | ||||||
| 9 | Rotor blade transportation system | US13586230 | 2012-08-15 | US09086052B2 | 2015-07-21 | Vijaykumar Muppayya Hiremath; Umesh B. Shingne |
| A transportation system is disclosed for transporting a rotor blade having a first end and a second end defining a rotor blade length. The transportation system includes a truck configured to transport the rotor blade, the truck including a bed having a forward end and a distal end defining a bed length. The transportation system further includes a first fixture configured on the bed, the first fixture comprising a generally arcuate guide member and a support frame slidable along the guide member, the support frame configured to support the rotor blade. The transportation system further includes a second fixture configured on the bed for one of slidable support or rotatable support of the rotor blade. Movement of at least one of the first fixture or the second fixture rotates the rotor blade within a plane defined by the bed. | ||||||
| 10 | METHOD FOR REPLACING A PERMANENT MAGNET OF A WIND TURBINE GENERATOR | US14063352 | 2013-10-25 | US20140050555A1 | 2014-02-20 | Henrik Stiesdal |
| A method is provided for replacing a permanent magnet of a generator of a wind turbine from a first position to a second position. A container is provided having a shell and an opening through the shell. The opening defines an open space for storing the permanent magnet. The open space is surrounded by the shell, and the shell having a thickness that provides that the permanent magnet does not come close enough to other magnetic material to exert significant force on it. The method involves placing the permanent magnet from the first position into the container, transporting the container with the permanent magnet to the second position, removing the permanent magnet from the container, and placing the permanent magnet in the second position. | ||||||
| 11 | Wind Turbine Nacelle, Transport System for a Wind Turbine Nacelle and Method for Transporting a Wind Turbine Nacelle | US13151582 | 2011-06-02 | US20110304122A1 | 2011-12-15 | Henning Poulsen |
| A wind turbine nacelle is provided. The wind turbine nacelle includes a longitudinal extension and a bottom part. The longitudinal extension has a rear end and a front end. At the bottom part, an opening is located which serves as an interface to a tower of a wind turbine at a designated assembly situation of the nacelle. A first detachable leg arrangement is attached to at least one of the front end and the rear end. A second detachable leg arrangement is attached at the bottom part. Further embodiments are directed to a transport system for a wind turbine nacelle and to a method for transporting a wind turbine nacelle. | ||||||
| 12 | FIXTURE FOR RETAINING AN END OF A MEMBER | US13056548 | 2009-07-23 | US20110194896A1 | 2011-08-11 | Per E. Fenger |
| Fixture for attachment of an end of a member, such as a wind turbine tower section, blade or hub for a wind turbine, which characteristically has an end flange. To enable clamping while being able to compensate for different hole patterns in the flanges, by the invention, the fixture provides for retaining of ends of members with flanges, regardless of flange diameter and hole patterns, and which is also quickly and easily installed. Additionally, it is possible to firmly clamp the flange end to upstanding frame parts of the fixture with fastening elements, thereby providing a stable connection between a console of the fixture and the upstanding frame parts. | ||||||
| 13 | 一種の洋上風電プラントのフローティング搬送方法 | JP2014546308 | 2013-08-28 | JP5869693B2 | 2016-02-24 | ▲練▼▲継▼建; 丁▲紅▼岩; ▲張▼浦▲陽▼; 李▲愛▼▲東▼ |
| 14 | 浮体式洋上風力発電装置の設置工法および撤去工法とその構造 | JP2011066863 | 2011-03-25 | JP5838439B2 | 2016-01-06 | 安野 浩一朗; 岡田 英明; 森屋 陽一; 島谷 学; 力石 大彦; 関本 恒浩; 本島 禎二; 嶋田 健司; 清水 勝公; 堀 哲郎; 白枝 哲次; 根尾 景次郎; 福本 幸成; 助川 博之; 石原 孟 |
| 15 | 風力発電装置のロータブレードの取り扱い装置 | JP2015518940 | 2013-06-05 | JP6023321B2 | 2016-11-09 | リュルカー、フランク; ブレナー、アルブレヒト |
| 16 | 海上風力タービンの組立及び輸送方法 | JP2014089106 | 2014-04-23 | JP5866400B2 | 2016-02-17 | ヤン ベステルゴー |
| 17 | Transportation assembly for rotor blade | US14277137 | 2014-05-14 | US09429139B2 | 2016-08-30 | Stephen Bertram Johnson; Douglas C. Klein; Xianglei Chen; Srikanth Samudrala |
| Transportation assemblies for rotor blades are provided. A transportation assembly includes a protection cap including a nose portion and a plurality of sidewall portions extending from the nose portion, the protection cap having a generally U-shaped cross-sectional profile. The transportation assembly further includes a restraint assembly including a first protrusion and a second protrusion each extending from the protection cap, the first protrusion and the second protrusion spaced apart along a width of the protection cap. | ||||||
| 18 | Wind turbine blade railroad transportation system and method | US14467144 | 2014-08-25 | US09347426B2 | 2016-05-24 | Scott C. Landrum; T. Christopher King |
| A system and method for transporting a first and second airfoil using a center railcar coupled to two additional railcars. A pair of root brackets support the root ends of the two airfoils on the two additional cars, aligning the two airfoils over the center car. A lower sling stand on the center railcar has a pair of vertical side members extending upwardly to hang a lower sling that support the first airfoil. An upper sling stand has a base that is supported by the lower sling stand, and also has a pair of upper side members that support an upper sling. The second airfoil is supported by the upper sling. The upper sling stand is fixedly supported on the lower sling stand so as to support the second airfoil above the first airfoil in overlapping fashion. | ||||||
| 19 | Wind Turbine Blade Railroad Transportation System and Method | US14467144 | 2014-08-25 | US20160053740A1 | 2016-02-25 | Scott C. Landrum; T. Christopher King |
| A system and method for transporting a first and second airfoil using a center railcar coupled to two additional railcars. A pair of root brackets support the root ends of the two airfoils on the two additional cars, aligning the two airfoils over the center car. A lower sling stand on the center railcar has a pair of vertical side members extending upwardly to hang a lower sling that support the first airfoil. An upper sling stand has a base that is supported by the lower sling stand, and also has a pair of upper side members that support an upper sling. The second airfoil is supported by the upper sling. The upper sling stand is fixedly supported on the lower sling stand so as to support the second airfoil above the first airfoil in overlapping fashion. | ||||||
| 20 | Wind turbine nacelle, transport system for a wind turbine nacelle and method for transporting a wind turbine nacelle | US14810001 | 2015-07-27 | US20150330359A1 | 2015-11-19 | Henning Poulsen |
| A transport system for a wind turbine nacelle is provided. The transport system comprises a first trailer and a second trailer, as well as a first leg arrangement attached to a front end or a rear end of the nacelle and a second leg arrangement attached to a bottom portion of the nacelle. A bridge assembly interconnects the first trailer and the second trailer and is fixed to the first leg arrangement and to the second leg arrangement to define a stable frame suspended between the first trailer and the second trailer for the nacelle. | ||||||
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