Energía eólica

Großwälzlager als Blatt-, Azimut- oder Hauptlager für eine Windenergieanlage

Resumen de: DE102024123253A1

Ein Großwälzlager hat einen Innenring und einen Außenring, die Laufbahnen für zwischen diesen Laufbahnen aufgenommene Wälzkörper, eine erste und eine zweite Stirnseite, und von der ersten zur zweiten Stirnseite durchgehende erste Befestigungsmittel haben, die im Abstand voneinander angeordnet einen ersten Befestigungskranz bilden; jede der ersten Befestigungsmittel fluchtet mit einer Bohrung eines ersten Anschluss-Elements; ein Adapterring verlängert den Außen- oder Innenring axial zu dem ersten oder einem zweiten Anschluss-Element hin; der Adapterring hat eine erste und eine zweite Stirnseite, von seiner ersten zu seiner zweiten Stirnseite durchgehende zweite Befestigungsmittel, die im Abstand voneinander angeordnet sind und einen zweiten Befestigungskranz bilden; jede der zweiten Befestigungsmittel fluchtet mit einer Bohrung eines zweiten Anschluss-Elements; zumindest an seiner ersten Stirnseite offene dritte Bohrungen sind im Abstand voneinander angeordnet und bilden einen dritten Befestigungskranz; jede der dritten Bohrungen fluchtet an der ersten Stirnseite des Adapterrings mit einer Bohrung des Außenrings oder des Innenrings. Der Durchmesser des dritten Befestigungskranzes ist größer als der der Durchmesser des zweiten Befestigungskranzes.

PULTRUDED PLANK, SPAR CAP, WIND TURBINE BLADE, AND PULTRUSION PREPARATION PROCESS

Resumen de: MX2025011983A

The present application discloses a pultruded plank, a spar cap, a wind turbine blade, and a pultrusion preparation process. The pultruded plank comprises a pultruded core and a coated interface layer. The pultruded core is made with reinforced fibers impregnated with a core resin. The interface layer is made with an interface resin present on at least one surface of the pultruded core, and allows the pultruded plank to be wound and packaged after manufacturing. The interface resin contains an isocyanate resin and a polyester resin, and the mass ratio of the isocyanate resin to the polyester resin is 1:3~2:3. The surface of the interface layer forms a bonded surface on the pultruded plank, and the bonded surface is used to form a bonding interface between at least two pultruded planks.

TRANSMISSION SHAFT FOR A PLANETARY TRANSMISSION

Resumen de: WO2024213479A1

The invention relates to a transmission shaft (32) for a planetary transmission, having a first coupling point (30) for introducing a torque and a second coupling point (52) for outputting the torque, wherein a path of a torque flow extending from the first coupling point to the second coupling point is formed and the axial portions of the path along which the torque flow flows are greater than an axial distance between the first coupling point and the second coupling point, wherein a freely oscillating shaft end is formed in a common axial subregion in which the torque flow flows on different radii in opposite axial directions. Due to the extended path of the torque flow (54), the stiffness and the natural frequency of an oscillatory overall system having the transmission shaft (32) can be reduced, thereby allowing disruptive oscillations in a planetary transmission to be reduced.

LIGHTNING STRIKE PROTECTION SYSTEM

Resumen de: CN120936801A

A pitch-controlled wind turbine comprising a tower, a nacelle mounted on the tower, a hub rotatably mounted on the nacelle, and at least three wind turbine blades wherein each wind turbine blade extends between a root end and a tip end, the root end being connected to the hub via a pitch mechanism; the wind turbine further comprises at least three blade connection members, each blade connection member extending from a connection point on one wind turbine blade towards a connection point on an adjacent wind turbine blade, wherein the connection points on a given wind turbine blade are arranged at a distance from the root end of the wind turbine blade and at a distance from the tip end of the wind turbine blade; each wind turbine blade comprising an outboard portion extending the distance from a tip end of the wind turbine blade to the connection point, and an inboard portion extending the distance from a root end of the wind turbine blade to the connection point; wherein the wind turbine further comprises a lightning strike protection system, and each blade connection member has an electrically conductive material configured to conduct lightning current from an outboard portion of the wind turbine blade from which the connection member extends and along a path extending with the blade connection member towards the tower.

METHOD FOR OPERATING A WIND TURBINE

Resumen de: EP4697545A2

Die Erfindung betrifft ein Verfahren zum Steuern wenigstens einer Windenergieanlage (100), wobei die wenigstens eine Windenergieanlage (100) zum Einspeisen elektrischer Leistung in ein elektrisches Versorgungsnetz (120) vorbereitet ist, und abhängig von einem Leistungsangebot in dem elektrischen Versorgungsnetz (120) elektrische Wirkleistung in das elektrische Versorgungsnetz (120) eingespeist wird oder elektrische Wirkleistung aus dem elektrischen Versorgungsnetz (120) entnommen und wenigstens einem elektrischen Verbraucher der wenigstens einen Windenregieanlage (100) zugeführt wird, und abhängig einer weiteren Zustandsgröße des elektrischen Versorgungsnetzes (120) elektrische Blindleistung in das elektrische Versorgungsnetz (120) eingespeist wird oder elektrische Blindleistung aus dem elektrischen Versorgungsnetz (120) entnommen wird.

DAMPENING SYSTEM AND METHOD FOR WIND TURBINE INSTALLATION

Resumen de: EP4696885A2

The invention relates to a Damping system (1) for damping a movement of a tower (2) of a wind turbine (3), comprising a string (4) for being attached to the tower (2) for applying a pulling force to the tower (2). The damping system (1) further comprises a pulling device (5) for providing a defined pulling force onto the string (4) and a controlling device (6) for controlling the pulling device (5). The invention further relates to a method for damping a movement of a tower (2) of a wind turbine (3).

A PITCH CONTROLLED WIND TURBINE WITH BLADE CONNECTING MEMBERS

Resumen de: EP4696882A2

A pitch controlled wind turbine (1) comprising a tower (2), a nacelle (3) mounted on the tower (2), a hub (4) mounted rotatably on the nacelle (3), and at least three wind turbine blades (5) is disclosed. Each wind turbine blade (5) extends between a root end (10) connected to the hub (4) via a pitch mechanism, and a tip end. The wind turbine (1) further comprises at least three blade connecting members (6), each blade connecting member (6) extending between a connection point (7) on one wind turbine blade (5) and a connection point (7) on a neighbouring wind turbine blade (5), the connection points (7) being arranged at a distance from the root end (10) and at a distance from the tip end of the wind turbine blade (5). The wind turbine (1) further comprises at least three pre-tension members (8), each pre-tension member (8) being connected to one of the blade connecting members (6) and to a hub part (4, 9, 26), the pre-tension members (8) thereby providing pre-tension in the blade connecting members (6).

Improved wind farm turbine

Resumen de: GB2643393A

A wind turbine 10 comprises a turbine column 12, one or more rotatable shafts 11, and a turbine 13 coupled proximate to the first end of each shaft 11. A plurality of generators 15 are housed in the turbine, and are each detachably coupled to the surface of one of the rotating shafts, such that they can be selectively driven by rotation of the respective shaft. The generators supply power to one or more of several downstream systems. A controller housed within the turbine column controls the detachable couplings and the output of the plurality of generators. The controller analyses the power output of the generators and the power demand from each of the downstream systems, and adds or removes generators from the shaft(s) to maximize power generation. The controller is configured to supply at least a portion of the generated power to one or more of the downstream systems based on the amount of power generated and each systems relative power demand.

ROTATING CONDUCTIVE APPARATUS AND POWER SOCKET

Resumen de: EP4697527A1

Disclosed in the present invention are a rotating conductive apparatus and a power socket. The rotating conductive apparatus comprises a conductive assembly, an elastic apparatus, a position limiting apparatus and a wire, the conductive assembly comprising a conductive shaft, a conductive carrier and a conductive base. A current first flows through the conductive base, the conductive base then electrifies the conductive shaft, the conductive shaft then transmits the current to the conductive carrier, and the conductive carrier can rotate around the conductive shaft. The wire is electrically connected to the conductive carrier, the wire rotates around the conductive shaft by means of the conductive carrier to achieve winding, and the conductive carrier can stably input and output the current to the wire. The elastic apparatus is responsible for winding the wire, and the position limiting apparatus is responsible for limiting the length of the wire drawn out. Compared with structures of follow-up circuit boards and conductive plates, the structural hardness of the conductive shaft is higher than that of a fixed circuit board, and the bearable contact friction force between the conductive shaft and the conductive carrier is greater than the bearable contact friction force between a circular conductive rail and a metal contact member, thereby effectively prolonging service life of products.

A SYSTEM AND METHOD FOR DETERMINING ROUGHNESS IN WIND TURBINE BLADES

Resumen de: EP4696886A1

The Invention determines roughness in wind turbine blades based on real time conditions. The invention also evaluates the performance of wind turbine by overruling the other possible factors contributing to lower performance of the wind turbine and determining the roughness in wind turbine blades being the determinative factor for the low performance of a wind turbine. The present invention determines roughness in the wind turbine blades based on a mechanism which can provide hub height wind speed input to the controller that is experienced by the turbine in real time basis.

WIND ENERGY HARVESTER

Resumen de: CN121002279A

The present disclosure provides a wind energy collector 10 comprising a carousel platform 12 positionable on a surface 14 and a generator 16. The collector 10 comprises at least one elongate support boom 18, one proximal end 20 of which is pivotally disposed on the carousel platform 12 such that the support boom 18 is oscillatable and which is configured to oscillate to drive the fluid pump 16. The collector 10 further comprises a high lift airfoil 24 rotatably disposed at the distal end 22 of the support boom 18 to be higher than the carousel platform 12 and the surface 14, further comprises an orientation device 26 configured to reverse the airfoil 24 between oscillations to maintain a desired angle of attack of the airfoil 24 with respect to the carousel 12 during such oscillations, and a wind indicator device 28 configured to indicate the orientation of the airfoil 24 with respect to the carousel 12 during such oscillations. And a wind deflector disposed between the proximal end 20 and the distal end 22 of the support boom 18 and configured to correct an angle of attack of the airfoil 24 according to a relative wind direction with respect to the carousel 12. In this way, the oscillation of the support boom enables the collection of wind energy via the generator.

WIND TURBINE ROTOR BLADE PITCH SYSTEM

Resumen de: EP4696884A1

The invention describes a wind turbine rotor blade pitch system (1) comprising, for each rotor blade (20) of a wind turbine (2): a hydraulic cylinder (10) and a means of converting a linear displacement of the cylinder piston rod (10R) into a rotational displacement of that rotor blade (20); an accumulator (11) adapted to provide pressurised hydraulic fluid to the cap-end chamber (101) of the hydraulic cylinder (10) or to the rod-end chamber (102) of the hydraulic cylinder (10); and a hydraulic circuit (12) comprising a primary return line (L1) connecting the rod-end chamber (102) to the accumulator (11); a secondary return line (L2) connecting the rod-end chamber (102) to a fluid reservoir (19); and a means (122V, 124V) of opening the secondary return line (L2) to divert hydraulic fluid to the fluid reservoir (19); which pitch system (1) further comprises a pitch controller (1C) adapted to actuate the line opening means (122V, 124V) of a hydraulic circuit (12). The invention further describes a method of controlling such a wind turbine rotor blade pitch system (1).

VERTICAL-AXIS WIND TURBINE CONTROL

Resumen de: EP4696883A1

A lift-type VAWT (10), comprises a rotor (12), a generator, a drive train for transmitting mechanical power from the rotor to the generator (20), a braking system including an eddy-current brake (22) and at least one friction brake (24), and a control system (36). The drive train comprises a primary shaft (14) carrying the rotor, a secondary shaft (18) connected to the generator, and a transmission (16) connecting the primary to the secondary shaft. The control system monitors one or more operating parameters of the generator and retards the secondary shaft by regulating the braking power of the eddy-current brake depending on the monitored operating parameters of the generator. The control system further monitors operating parameters of the eddy-current brake and activates the friction brake(s) to bring the rotor to a halt when stopping of the wind turbine is mandated.

ASSEMBLY OF A ROTOR OF AN ELECTRICAL MACHINE

Resumen de: EP4697572A1

It is described a method and arrangement (1) for mounting a stiffening ring (2), in particular brake disk, to a rotor house (3) of an electrical machine, comprising: a carrier frame (4) equipped with a driving system (5) adapted to move along a circumference (6) of the rotor house (3); at least one fastening device (10) mounted at the carrier frame (4), the fastening device comprising a torque spindle and being adapted to fasten a bolt (37) through a stiffening ring hole (11) into a hole in the rotor house (3).

BIAXIAL SINGLE FREQUENCY FATIGUE TEST FOR WIND TURBINE BLADES

Resumen de: AU2024441602A1

The present invention relates to a method and system of fatigue testing a wind turbine blade using a test system. The test system comprises a test stand to which the wind turbine is fixed. A first excitation unit is connected to the wind turbine blade and used to introduce loadings in the flapwise direction. A second excitation unit is connected to the wind turbine blade and used to introduce loadings in the edge wise direction. A load controllable unit is connected to the wind turbine blade and used to adjust the resonant frequency of the test system. Loadings in the flapwise and edgewise directions are introduced at the same resonant frequency and the loadings are measured using a number of detector units electrically connected to the control unit. The control unit monitors and controls the amplitude of the first and second harmonic motions and the phase between the first and second harmonic motions, thereby allowing the load polar plot to accurately match a target load polar plot.

海上无人机装置

Resumen de: CN223919617U

本实用新型属于无人机技术领域，公开了一种海上无人机装置。该海上无人机装置包括无人机本体和多个浮力组件。多个浮力组件均固定于无人机本体的外侧壁，并沿无人机本体的外侧壁周向均匀间隔分布。每个浮力组件包括弧形浮板和多个漂浮圈，弧形浮板的弧形表面与无人机本体的外侧壁平行，多个漂浮圈沿竖直方向层叠设置，弧形浮板和漂浮圈能够漂浮于水中。该海上无人机装置落水后能够避免沉入水中，且稳定性好、结构紧凑。

一种海上风机缺陷图形采集用无人机

Resumen de: CN223919608U

本实用新型涉及无人机技术领域，公开一种海上风机缺陷图形采集用无人机，包括无人机本体、吊架、驱动机构、转轴、安装座、相机以及限位机构，吊架固定在无人机本体的底部，驱动机构安装在吊架上，转轴与吊架板转动连接，转轴的轴线沿第一方向延伸，相机沿第一方向具有相背的两侧面，相机可拆卸安装在安装座上，限位机构安装在安装座上并与相机的两侧面抵接，驱动机构与转轴传动连接，转轴的外周凹设有一安装槽，安装座可拆卸固定在安装槽内，驱动机构能够驱动转轴带动安装座和相机绕转轴的轴线转动。本实用新型的海上风机缺陷图形采集用无人机可以实现相机的角度调节，提高海上风机缺陷检测范围，更利于图形拍摄采集。

一种风力发电机用通风结构

Resumen de: CN223923189U

本实用新型公开了一种风力发电机用通风结构，涉及风力发电机技术领域，包括底板，所述底板的顶端一侧固定连接有立柱，所述立柱的顶端固定连接有风力发电机组，所述风力发电机组的输出端固定连接有扇叶，所述底板的顶端一侧固定连接有发电机控制箱，所述发电机控制箱的两侧均开设有通风窗。本实用新型采用上述结构，通过在清洁刷的两侧安装弹簧，弹簧固定在安装板上，在发电机控制箱上安装动力组件，利用动力组件带动安装板移动，即可使清理刷对防尘网进行清理，对防尘网疏通费，确保通风顺畅，消除硬性接触，可以显著延长清洁刷的使用寿命，这不仅减少了更换清洁刷的频率，降低了维护成本，还避免了因通风口防尘网损坏而引发的更大规模维修。

一种带有加固结构的风力发电机用塔架

Resumen de: CN223923185U

本实用新型公开了一种带有加固结构的风力发电机用塔架，涉及发电机塔架领域，包括塔架主体和加固锚座，所述塔架主体的外侧设有拉索法兰，所述拉索法兰的外侧设有钢索，所述加固锚座通过连接机构和钢索远离拉索法兰的一端活动安装。本实用新型采用上述结构，通过利用扳手或者适配于第二六角块的操作转盘，插入到第二六角块处后，经过旋转使得第二六角块带动转杆在安装腔处转动，而转杆的转动使得外侧的第二锥齿轮啮合传动第一锥齿轮，同时第一锥齿轮连接的第二螺杆可以在收纳槽中转动，而第二螺杆的转动使得外侧螺纹连接的加强锥从收纳槽中滑动伸出，当加强锥刺入到地质中后，可以大大加强其加固锚座的强度与稳定性。

一种海上风电叶片检测及修复人员操作平台装置

Resumen de: CN223923191U

本实用新型涉及叶片检测平台技术领域，且公开了一种海上风电叶片检测及修复人员操作平台装置，包括检测平台和固定架，所述检测平台数量为二，内部安装有检测设备，所述检测平台分别位于所述固定架的左右两侧，通过移动架与所述固定架实现连接，所述检测平台与所述移动架连接处设置有竖直滑槽，所述固定架与所述移动架连接处设置有水平滑槽，所述固定架内部设置有运动电机，由控制系统操控，在所述检测平台和所述固定架上分别有竖直和水平方向的运动自由度；位于所述固定架两侧的所述检测平台可向中间位置合并，待修复叶片位于两个所述检测平台中间；该设备解决了现有技术中海上风电叶片维护安全性低，效率低的问题。

一种风力发电机控制器

Resumen de: CN223928639U

本实用新型属于风力发电技术领域，具体公开了一种风力发电机控制器，包括机舱顶，所述机舱顶的底部固定安装有安装台，所述安装台上可拆卸安装有柱状轴，所述安装台的内部设置有用于稳定柱状轴的限位机构，所述柱状轴的底部固定安装有控制器本体，所述柱状轴的顶部固定连接有连轴，所述连轴的顶部固定连接有圆台帽，所述连轴的外表面滑动套设有合体圆台。该风力发电机控制器，摒弃了繁琐的螺栓拧紧与松开过程，只需通过简单的上下托举动作即可完成控制器的安装与拆卸，这种设计极大地缩短了安装与拆卸时间，提高了工作效率，特别是在紧急维修或定期维护时，能够迅速响应，减少停机时间，保障风力发电站的稳定运行。

一种用于电机拖动系统的保护装置

Resumen de: CN223923478U

本实用新型涉及风电机组传动链测试技术领域，公开一种用于电机拖动系统的保护装置，包括：第一连接件，第一连接件一端与液压装置和承载横梁相连接，以使液压装置能够推动第一连接件和承载横梁同步移动；限位件和基座，第一连接件穿过基座与限位件相连接，限位件和第一连接件同步移动，限位件在移动过程中以远离或靠近基座；第一触发件和第二触发件，第一触发件安装在基座上，第二触发件安装在限位件上，且第一触发件与第二触发件分别与液压装置相通信连接，当限位件与基座相互靠近时，第一触发件与第二触发件相接触，液压装置停止。本实用新型通过第一触发件和第二触发件的设计，避免更严重的设备损坏或安全事故发生，保障了人员的安全。

一种风力发电机塔架角度调节装置

Resumen de: CN223923183U

本实用新型涉及风力发电机技术领域，提供一种风力发电机塔架角度调节装置，包括支撑架和发电机主体；所述支撑架的顶端设置有发电机主体，所述支撑架的底端均匀固定有定位结构。本实用新型通过设置有拆装结构，使得安装座底部至于支撑架的内部时通过移动杆与通孔构成的卡合结构进行预定位，且便于将拆装螺栓通过通孔插入螺纹孔的内部对安装座进行安装定位，而移动杆一侧呈半圆形进而便于使得其在拆装的过程中通过挤压移动至内置槽的内部不影响正常的拆装流程，且通孔在支撑架的顶部呈等间距分布进而便于将安装座在支撑架的顶部进行转动进而对风力发动机组件角度进行调节，从而达到了便于对该装置进行拆装维护以及调节角度的目的。

一种风电偏航齿轮箱输出支撑结构

Resumen de: CN223923758U

本实用新型公开了一种风电偏航齿轮箱输出支撑结构，涉及风力发电机偏航齿轮箱改进技术领域。本实用新型包括环绕齿轮箱电机轴线且水平设置的若干圆柱形连接杆，每根所述连接杆远离所述齿轮箱电机的一端安装有定位板，所述连接杆的轴线与所述定位板垂直设置，若干所述定位板依次连接环绕所述齿轮箱电机构成定位架，所述定位架的底面安装有支撑杆，所述定位板上位于所述连接杆的上方与所述连接杆同轴转动安装有加固弧形板，所述加固弧形板的顶端外弧面与旋转驱动机构传动连接，所述加固弧形板的圆心角大于180°；以实现轻量化对偏航齿轮箱的输出机构进行支撑的目的，解决连接杆与定位板的衔接段对大瞬时载荷承载能力较低的问题。

一种风力发电机塔筒散热装置

Nº publicación: CN223923192U 17/02/2026

Solicitante:

河南风科新能源科技有限公司

Resumen de: CN223923192U

本实用新型涉及风力发电机塔筒散热技术领域，且公开了一种风力发电机塔筒散热装置，其包括壳体，所述壳体一侧壁上设置有活动百叶窗，所述活动百叶窗上端两侧均设置有铰链，所述活动百叶窗下端内壁上设置有磁吸条，位于所述壳体正对所述活动百叶窗的侧壁上设置有底板，位于所述底板正对所述壳体的侧壁中部设置有散热风机，所述壳体上端一侧设置有第一过滤插板。通过设置底板、散热风机和连接孔，可使装置能够便捷的插入风力发电机塔筒内，与风力发电机塔筒组合在一起对风力发电机塔筒进行散热；活动百叶窗在磁吸条和铰链的辅助下可进行活动开合，方便对装置内部进行维护，活动百叶窗内的百叶组件可根据需要调节开度。