公开(公告)号：US20140008916A1

公开(公告)日：2014-01-09

申请号：US14007357

申请日：2012-06-08

Applicant: Atsushi Shimizu

Inventor： Atsushi Shimizu

IPC: F03D9/00

CPC classification number: F03D3/007 ,  F05B2240/201 ,  F05B2240/40 ,  Y02B10/30 ,  Y02E10/74

Abstract: A vertical-axis-type Magnus-system wind power electric generator, including: the windmill part that has the electric-generator rotation axis, and rotates by wind power on its longitudinal axis; and the electric generator that has the stator, and the rotator joined to the windmill part), wherein the windmill part has: the barrel set that possesses the two barrels which are arranged in parallel with the electric-generator rotation axis, and rotate around the electric-generator rotation axis; and the supporting member that joins the barrel set to the electric-generator rotation axis, wherein each of the two barrels is configured so as to be capable of spinning around the supporting axis that is supported by the supporting member, and spinning directions of the two barrels are directions opposite each other.

Abstract translation: 一种垂直轴式马格纳斯风力发电机，包括：具有发电机旋转轴的风车部分，并通过风力在其纵轴上旋转; 以及具有定子的发电机和与风车部分连接的旋转体），其中，风车部具有：具有与发电机旋转轴线平行设置的两个筒体的筒组， 发电机旋转轴; 以及将筒体连接到发电机旋转轴线的支撑构件，其中，两个筒体中的每一个构造成能够围绕由支撑构件支撑的支撑轴线旋转，并且两个筒的旋转方向 桶是相反的方向。

公开(公告)号：US08618690B2

公开(公告)日：2013-12-31

申请号：US13333174

申请日：2011-12-21

Applicant: Jost Seifert

Inventor： Jost Seifert

IPC: F03D11/04

CPC classification number: F03D3/007 ,  F03D3/002 ,  F03D3/005 ,  F03D3/02 ,  F03D3/04 ,  F03D9/00 ,  F03D9/25 ,  F05B2240/201 ,  F05B2240/212 ,  F05B2240/214 ,  Y02B10/30 ,  Y02E10/74

Abstract: A wind power hybrid rotor of a wind power plant for converting wind energy into drive energy is provided. For a utilization of the wind energy in a manner as efficient as possible, a wind power hybrid rotor is provided with a cross-flow rotor, a guide device and a Magnus rotor. The cross-flow rotor is supported so as to be rotatable about a rotational axis and has a plurality of axially extending rotor blades. The guide device has a housing segment partially enclosing the cross-flow rotor in the circumferential direction in such a manner that the cross-flow rotor can be driven by inflowing wind. The Magnus rotor axis is arranged within the cross-flow rotor, and the Magnus rotor axis extends in the direction of the rotational axis. The Magnus rotor has a closed lateral surface and is rotatably driven about the Magnus rotor axis by a drive device.

Abstract translation: 提供了一种用于将风能转换为驱动能量的风力发电厂的风力混合转子。 为了以尽可能高效率的方式利用风能，风力混合式转子设置有横流转子，引导装置和马格努斯转子。 横流转子被支撑成能够围绕旋转轴线旋转并且具有多个轴向延伸的转子叶片。 引导装置具有在圆周方向上部分地包围横流转子的壳体段，使得横流转子可以通过流入的风来驱动。 Magnus转子轴线设置在横流转子内，Magnus转子轴线沿旋转轴线方向延伸。 Magnus转子具有封闭的侧面，并通过驱动装置围绕Magnus转子轴旋转。

公开(公告)号：US20130328320A1

公开(公告)日：2013-12-12

申请号：US13996651

申请日：2011-08-01

Applicant: Jost Seifert

Inventor： Jost Seifert

IPC: F03D3/02 ,  F03D9/00 ,  F03D3/04

CPC classification number: F03D3/007 ,  F03D3/002 ,  F03D3/005 ,  F03D3/02 ,  F03D3/04 ,  F03D9/00 ,  F03D9/25 ,  F05B2240/201 ,  F05B2240/212 ,  F05B2240/214 ,  Y02B10/30 ,  Y02E10/74

Abstract: A wind power rotor has a first and second rotor device. The first rotor device rotates about a first axis of rotation and has at least two rotor blades moving on a peripheral track about the first axis of rotation. The rotor blades are such that they describe a virtual first shell surface of a virtual first rotating body upon rotation about the first axis of rotation. The second rotor device rotates about a second axis of rotation and has a second rotating body with a closed second shell surface. The second rotating body is arranged at least partially inside of the virtual first rotating body. The first rotor device can be driven by wind in a first direction of rotation and the second rotor device has a drive device, and can be driven in a second direction of rotation which is opposite that of the first direction of rotation.

Abstract translation: 风力转子具有第一和第二转子装置。 第一转子装置围绕第一旋转轴线旋转并且具有围绕第一旋转轴线在周边轨道上移动的至少两个转子叶片。 转子叶片使得它们描述了围绕第一旋转轴线旋转时虚拟的第一旋转体的虚拟的第一壳体表面。 第二转子装置围绕第二旋转轴线旋转并且具有带有封闭的第二壳体表面的第二旋转体。 第二旋转体至少部分地布置在虚拟第一旋转体的内部。 第一转子装置可以在第一旋转方向上由风驱动，并且第二转子装置具有驱动装置，并且可以在与第一旋转方向相反的第二旋转方向上被驱动。

公开(公告)号：US08492921B2

公开(公告)日：2013-07-23

申请号：US12883318

申请日：2010-09-16

Applicant: Joel S Douglas ,  Matthew French ,  Paul Richard Johnson ,  Amanda E Ziegler

Inventor： Joel S Douglas ,  Matthew French ,  Paul Richard Johnson ,  Amanda E Ziegler

IPC: F03B13/00 ,  F03D9/00

CPC classification number: F03B5/00 ,  F03B17/062 ,  F03D1/0616 ,  F03D3/007 ,  F05B2210/16 ,  F05B2240/201 ,  Y02E10/20 ,  Y02E10/28 ,  Y02E10/721 ,  Y02E10/74

Abstract: An energy harvester capable of providing motion from fluid flow, which comprises at least one Magnus cylinder driven to rotate by the movement of the fluid past a fin device. This causes the Magnus cylinder to rotate, and further interactions between the rotating Magnus cylinder and the moving fluid generate a Magnus lifting force. A channel or system may be also provided to direct the fluid flow to the Magnus cylinder. This rotating Magnus cylinder configuration is integrated into a mechanical device that is designed to transfer the Magnus lifting forces into a rotary mechanical motion to drive an electric generator. The device can be utilized in either air or hydraulic environments. A modification of the energy harvester can also be configured to utilize the generated electricity to produce hydrogen for use in fuel cells, or for combustion.

Abstract translation: 能够从流体流动提供运动的能量收集器，其包括至少一个马格努斯缸被驱动以通过流体通过翅片装置的运动而旋转。 这将导致Magnus气缸旋转，并且旋转Magnus气缸和移动流体之间的进一步交互产生Magnus提升力。 还可以提供通道或系统以将流体流引导至马格努斯缸。 这种旋转的Magnus气缸配置被集成到机械设备中，该机械设备被设计成将Magnus提升力传递到旋转机械运动以驱动发电机。 该设备可以在空气或液压环境中使用。 能量收集器的修改也可以被配置为利用所产生的电力来产生用于燃料电池或用于燃烧的氢。

公开(公告)号：US20120217757A1

公开(公告)日：2012-08-30

申请号：US13505606

申请日：2009-12-16

Applicant: Yoshio Aoki

Inventor： Yoshio Aoki

IPC: F03D9/00

CPC classification number: F03D1/025 ,  F03D1/0616 ,  F05B2240/201 ,  F05B2260/40311 ,  Y02E10/721 ,  Y02E10/722 ,  Y02E10/725

Abstract: A compound-type wind power generator capable of increasing the size of Magnus wind turbine by disposing a propeller wind turbine with the Magnus wind turbine and increasing the amount of electric power generation. The compound-type wind power generator includes a propeller wind turbine; a Magnus wind turbine with perpendicular center shafts and a bevel gear mechanism; generators driven by the horizontal rotation shaft of the Magnus wind turbine and the horizontal rotation shaft of the propeller wind turbine; and connection shafts for fixing the outer end of the perpendicular center shaft of each Magnus wind turbine to an adjacent propeller blade. The horizontal rotation shafts of the propeller wind turbine and of the Magnus wind turbine have a double shaft structure in which one of the horizontal rotation shafts is formed by a cylindrical portion and the other one is axially inserted through the cylindrical portion with a play therebetween.

Abstract translation: 一种复合式风力发电机，能够通过在Magnus风力发电机上设置螺旋桨式风力发电机并增加发电量，从而提高Magnus风力发电机的尺寸。 复合式风力发电机包括螺旋桨风力发电机; 具有垂直中心轴的Magnus风力涡轮机和锥齿轮机构; 由Magnus风力涡轮机的水平旋转轴和螺旋桨式风力涡轮机的水平旋转轴驱动的发电机; 以及用于将每个Magnus风力涡轮机的垂直中心轴的外端固定到相邻螺旋桨叶片的连接轴。 螺旋桨式风力涡轮机和Magnus风力涡轮机的水平旋转轴具有双轴结构，其中一个水平旋转轴由圆柱形部分形成，另一个在轴向间插入圆柱形部分。

公开(公告)号：US07986054B2

公开(公告)日：2011-07-26

申请号：US12184513

申请日：2008-08-01

Applicant: Joel S. Douglas

Inventor： Joel S. Douglas

IPC: F03B13/00 ,  H02P9/04

CPC classification number: F03B17/062 ,  F03D3/002 ,  F03D3/007 ,  F05B2240/201 ,  F05B2240/202 ,  F05B2240/313 ,  F05B2250/42 ,  Y02B10/30 ,  Y02E10/28 ,  Y02E10/38 ,  Y02E10/74

Abstract: An energy harvester capable of providing motion from fluid flow includes a Magnus rotor defined by a cylinder driven by a motor causing the cylinder to rotate so that lift is created by the fluid flowing past the cylinder. A channel or system may be provided to direct the fluid flow to the cylinder. The rotating cylinder configuration is integrated into a mechanical device which is designed to transfer the lift into a mechanical motion to drive a generator. The mechanical motion due to the created lift is reversed by using a stalling mechanism and counter balanced mechanism. This creates a bidirectional motion which can be captured and used to drive a generator. The device can be utilized in either air or hydraulic environments. A modification of the energy harvester can be configured to utilize the electricity generate to produce hydrogen for use in fuel cells or for combustion.

Abstract translation: 能够从流体流动提供运动的能量收集器包括由由电动机驱动的气缸限定的马格纳斯转子，其使气缸旋转，使得通过流过气缸的流体产生升力。 可以提供通道或系统以将流体流引导到气缸。 旋转圆柱体结构被集成到机械装置中，其被设计成将升降机传递到机械运动以驱动发电机。 由于产生的升力引起的机械运动通过使用失速机构和反平衡机构来反转。 这将产生可以被捕获并用于驱动发电机的双向运动。 该设备可以在空气或液压环境中使用。 能量收集器的改进可被配置为利用发电产生用于燃料电池或用于燃烧的氢气。

公开(公告)号：US20100187829A1

公开(公告)日：2010-07-29

申请号：US12691951

申请日：2010-01-22

Applicant: Joel S. Douglas

Inventor： Joel S. Douglas

IPC: F03D9/02 ,  F03B13/08 ,  F03G7/10

CPC classification number: F03B5/00 ,  F03B17/062 ,  F03D1/0616 ,  F03D3/007 ,  F05B2240/201 ,  Y02E10/20 ,  Y02E10/28 ,  Y02E10/721 ,  Y02E10/74

Abstract: An energy harvester capable of providing motion from fluid flow includes a Magnus cylinder defined by a cylinder driven by a motor causing the cylinder to rotate so that lift is created by the fluid flowing past the cylinder. A channel or system may be provided to direct the fluid flow to the cylinder. The rotating cylinder configuration is integrated into a mechanical device that is designed to transfer the lift into a rotary mechanical motion to drive a generator. The device can be utilized in either air or hydraulic environments. A modification of the energy harvester can be configured to utilize the electricity generate to produce hydrogen for use in fuel cells or for combustion.

Abstract translation: 能够从流体流动提供运动的能量收集器包括由由电动机驱动的气缸限定的马格纳斯气缸，使得气缸旋转，使得通过流过气缸的流体产生升力。 可以提供通道或系统以将流体流引导到气缸。 旋转圆柱体结构被集成到机械装置中，该机械装置被设计成将升降机传递到旋转机械运动以驱动发电机。 该设备可以在空气或液压环境中使用。 能量收集器的改进可被配置为利用发电产生用于燃料电池或用于燃烧的氢气。

公开(公告)号：US07602077B2

公开(公告)日：2009-10-13

申请号：US12173420

申请日：2008-07-15

Applicant: Frederick D. Ferguson

Inventor： Frederick D. Ferguson

IPC: F03D9/00

CPC classification number: F03D3/002 ,  F03D3/02 ,  F03D3/062 ,  F03D9/25 ,  F03D13/20 ,  F05B2240/201 ,  F05B2240/212 ,  F05B2240/213 ,  F05B2240/917 ,  F05B2240/921 ,  F05B2240/922 ,  Y02B10/30 ,  Y02E10/728 ,  Y02E10/74

Abstract: According to some embodiments, an airborne body extends horizontally along an axis between a first point and a second point. The body may be, for example, at least partially filled with a gas. Two or more vanes may be provided airborne with the body such that the vanes, when acted upon by a wind force perpendicular to the axis, are operable to cause rotation about the axis. Moreover, one or more tethers may be coupled to anchor the body to a third point, and one or more electrical generators may be airborne with the body to convert rotational energy produced by the rotation about the axis into electrical energy. According to some embodiments, each vane comprises a horizontal blade panel attached to and extending along the body.

Abstract translation: 根据一些实施例，机载体沿着第一点和第二点之间的轴线水平地延伸。 身体可以是例如至少部分地填充有气体。 可以与主体一起提供两个或更多个叶片，使得当垂直于轴线的风力作用时，叶片可操作以引起围绕轴的旋转。 此外，可以将一个或多个系绳联接以将身体锚定到第三点，并且一个或多个发电机可以与身体一起空运以将由围绕轴线的旋转产生的旋转能量转换成电能。 根据一些实施例，每个叶片包括附接到主体并沿主体延伸的水平叶片板。

公开(公告)号：US07504740B2

公开(公告)日：2009-03-17

申请号：US10569581

申请日：2004-06-14

Applicant: Nobuhiro Murakami ,  Jun Ito

Inventor： Nobuhiro Murakami ,  Jun Ito

IPC: F03B5/00

CPC classification number: F03D1/0616 ,  F05B2240/201 ,  F05B2240/40 ,  Y02E10/721

Abstract: A Magnus type wind power generator includes a horizontal rotary shaft for transmitting torque to a power generating mechanism. Rotary columns are disposed radially of the horizontal rotary shaft. Driving motors rotatively drive the respective rotary columns around the axes thereof. The relative action between rotation of each rotary column and wind produces Magnus lift, which rotates the horizontal rotary shaft so as to drive the power generating mechanism. An air flow device is installed for producing air flow on the outer peripheral surfaces of the rotary columns so as to increase the Magnus lift.

Abstract translation: Magnus型风力发电机包括用于将扭矩传递到发电机构的水平旋转轴。 旋转柱设置在水平旋转轴的径向上。 驱动马达围绕其各轴旋转驱动相应的旋转柱。 每个旋转柱和风的旋转之间的相对作用产生马格纳斯提升，马克努斯提升使水平旋转轴旋转以驱动发电机构。 安装有用于在旋转柱的外周面上产生气流的气流装置，以增加Magnus升力。

公开(公告)号：US20090058091A1

公开(公告)日：2009-03-05

申请号：US12184513

申请日：2008-08-01

Applicant: Joel S. Douglas

Inventor： Joel S. Douglas

IPC: F03B13/10 ,  F03B13/26

CPC classification number: F03B17/062 ,  F03D3/002 ,  F03D3/007 ,  F05B2240/201 ,  F05B2240/202 ,  F05B2240/313 ,  F05B2250/42 ,  Y02B10/30 ,  Y02E10/28 ,  Y02E10/38 ,  Y02E10/74

Abstract: An energy harvester capable of providing motion from fluid flow includes a Magnus rotor defined by a cylinder driven by a motor causing the cylinder to rotate so that lift is created by the fluid flowing past the cylinder. A channel or system may be provided to direct the fluid flow to the cylinder. The rotating cylinder configuration is integrated into a mechanical device which is designed to transfer the lift into a mechanical motion to drive a generator. The mechanical motion due to the created lift is reversed by using a stalling mechanism and counter balanced mechanism. This creates a bidirectional motion which can be captured and used to drive a generator. The device can be utilized in either air or hydraulic environments. A modification of the energy harvester can be configured to utilize the electricity generate to produce hydrogen for use in fuel cells or for combustion.

Abstract translation: 能够从流体流动提供运动的能量收集器包括由由电动机驱动的气缸限定的马格纳斯转子，其使气缸旋转，使得通过流过气缸的流体产生升力。 可以提供通道或系统以将流体流引导到气缸。 旋转圆柱体结构被集成到机械装置中，其被设计成将升降机传递到机械运动以驱动发电机。 由于产生的升力引起的机械运动通过使用失速机构和反平衡机构来反转。 这将产生可以被捕获并用于驱动发电机的双向运动。 该设备可以在空气或液压环境中使用。 能量收集器的改进可被配置为利用发电产生用于燃料电池或用于燃烧的氢气。