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    • 2. 发明公开
    • FLOATING, YAWING SPAR CURRENT/TIDAL TURBINE
    • EP3280908A1
    • 2018-02-14
    • EP16777514
    • 2016-04-11
    • AQUANTIS INC
    • DEHLSEN JAMES G P
    • F03B13/26F03B17/06
    • F03B17/061F03B13/264F05B2210/404F05B2240/912F05B2240/913F05B2240/916F05B2240/93F05B2260/02F05B2260/503F05B2260/507Y02E10/28
    • The present invention describes a floating yawing spar buoy current/tidal turbine. The spar includes a spreader above the rotor(s) with the spreader tips connected to fore and aft cable yokes that transition to opposing mooring lines connected to anchors on the seabed. The spreader comprises a yaw motor, which drives gears that engage with a ring gear fixed to the outer perimeter of the spar. Flow direction sensors activate the yaw motor for automatic yaw adjustments of the spar turbine. As tidal direction changes, the entire spar and turbine are yawed to maintain the rotor plane facing the tidal flow. The bottom end of the spar extends to approximately the bottom sweep of the rotor plane and contains a winched vertical mooring line, extending to the seabed and attached to a gravity or suction pile anchor. The turbine drive train can be accessed for servicing from the surface via hatches and ladders within the spar to enter the drive train and generating system vessel. The spar turbine is deployed by towing it in a horizontal position. At the operating site, the yokes are connected to the forward and aft mooring lines and the winch line is connected to the gravity anchor. The winch inside the keel draws the bottom end of the spar down and may be assisted by flooding the keel to reach a vertical position for the spar. The winch is then locked to retain required operating depth, or can actively control operating depth in areas of wide tide level range.
    • 9. 发明公开
    • CRANE WITH DOUBLE WIRE GUIDE AND ANCHORING BRACKET ARRANGED IN THE NACELLE OF A WIND TURBINE.
    • KRAN MIT DOPPELTERDRAHTFÜHRUNGUND VERANKERUNGSKLAMMER在DER GONDEL EINER WINDTURBINE
    • EP2917573A1
    • 2015-09-16
    • EP13853173.6
    • 2013-09-08
    • Liftra IP ApS
    • FENGER, Per
    • F03D11/04B66C23/18
    • B66C23/185B66C23/207B66C23/84B66D3/08F03D80/50F05B2240/916Y02E10/728
    • A crane includes a double wire guide and anchoring bracket arranged in the nacelle of a wind turbine for hoisting-up and -down of heavy parts of the wind turbine arranged in the nacelle. The crane includes an external winch with wires, located near the base of the tower of the wind turbine, the winch being connected via the wire guide to a pulley block including a crane hook at the end of the crane outrigger arm. The particular by the wire guide is, that it by two set of pivotally mounted wire wheels, mounted respectively on a fixed bracket part of the crane, and the pivotal mounted part of the crane, controls the wires of the crane within an pivot interval between +/−175 degrees from a 0-reference point, so that the wires never touch each other.
    • 起重机包括布置在风力涡轮机的机舱中的双线引导件和锚定支架,用于升降机构,其布置在机舱中的风力涡轮机的重部分。 起重机包括位于风力涡轮机塔的基部附近的电线的外部绞盘,绞盘通过导线器连接到包括起重机吊臂末端的起重机吊钩的滑轮组。 特别是通过导线引导装置,其分别安装在起重机的固定支架部分和起重机的枢转安装部分上的两组可枢转地安装的线轮,并且在起重机的电线之间的枢转间隔内 距离0参考点+/- 175度,使得导线不会相互接触。
    • 10. 发明公开
    • WIND TURBINE TOWER ASSEMBLY
    • TURMANORDNUNG EINER WINDENERGIEANLAGE
    • EP2914845A4
    • 2015-09-16
    • EP13851729
    • 2013-10-30
    • MARMEN INC
    • DOUCET JEROMECYRENNE MATHIEU
    • F03D11/04E04H12/08E04H12/10
    • F03D13/20E04B1/1903E04C3/30E04H12/08E04H12/10E04H12/34E04H12/342E04H2012/006F03D13/10F05B2240/912F05B2240/9121F05B2240/916F05B2250/711Y02E10/728
    • A structural tower for a wind turbine assembly, includes along at least a base section: a plurality of peripheral sections extending peripherally of a central section. Each includes a convex-shaped wall having two longitudinal side edges and an inner framework connected to a respective one of the convex-shaped walls and extending inwardly therein. The inner framework includes spaced-apart transversal structural members connecting the two longitudinal side edges of the convex-shaped walls together and pairs of connecting structural members extending inwardly towards the central section. Each connecting structural member of a pair has a peripheral end connected to a respective one of the longitudinal side edges and an inner end connected to an inner end of a respective one of the connecting structural members of an adjacent one of the peripheral sections to define a structural concavity in the structural tower between adjacent peripheral sections.
    • 一种用于风力涡轮机组件的结构塔架,至少包括一个基座部分:沿中心部分周向延伸的多个周边部分。 每个都包括具有两个纵向侧边缘和连接到相应的一个凸形壁并在其中向内延伸的内框架的凸形壁。 内部框架包括将凸形壁的两个纵向侧边缘连接在一起的间隔开的横向结构构件以及向中间部分向内延伸的成对连接结构构件。 一对的每个连接结构构件具有连接到纵向侧边缘中的相应一个的外周端和连接到相邻的一个周边部分的相应一个连接结构构件的内端的内端,以限定一个 相邻外围部分之间的结构塔中的结构凹陷。