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    • 2. 发明申请
    • ENERGY WIND PROFILE, FACADE ELEMENT, BUILDING, METHOD AND USE FOR USING ENERGY WIND PROFILES AND/OR A FACADE ELEMENT
    • 能源风廓线立面构件,结构,方法和使用能源利用风廓线OR 门面元素
    • WO2016078648A3
    • 2016-08-18
    • PCT/DE2015100491
    • 2015-11-16
    • MOHL ROLF DIETER
    • MOHL ROLF DIETER
    • F03D9/00F03D3/04
    • F03D3/0427F03D9/007F03D9/45F05B2210/16F05B2220/708F05B2240/124F05B2240/13F05B2240/133F05B2240/9112Y02B10/30Y02B10/70Y02E10/728Y02E10/74
    • The invention relates to a facade element (1), in particular a lamella-type facade element (1), comprising a front side (2) with at least one through-opening (3), at least one guiding element (4) for guiding a liquid flowing against the facade element (1) and flowing through the through opening (3) which is provided in the region of the at least one through opening (3), in order to deflect a flow direction of the liquid (F) in the through opening (3). The invention further relates to a facade device (10) having at least one facade element (1) and a building (100) with at least one facade device (10) and to a method for using a liquid flowing against a facade of the building (100). Said facade comprises a facade device, in particular in which the flowing liquid is guided into a through opening (3), is diverted in said through opening (3) by a guide element (4) and/or several guide elements (4), and is guided into a nozzle device (20) along the guide element (4) and/or several guide elements (4), along at least one tapered fluid channel (K), which is formed at least partially by the guide element (4) and/or the guide elements (4), in said nozzle device a wind generator unit (30) transforms the energy of the guided and accelerated fluid in the nozzle device (20) into another form of energy such that the wind energy can be used in another form.
    • 本发明的目的涉及一种正面元件(1),尤其是层状外立面元件(1),包括正面(2)与至少一个通孔(3),其中,在至少一个通道开口(3)的至少一个引导元件的区域(4) 流入的用于使所述正面元件(1)和所述通道开口(3)流动的流体被设置在所述通孔以转移流体(F)的流动方向(3)。 此外,本发明涉及一种正面装置(10)具有至少一个立面构件(1)和具有至少一个立面装置(10)的结构(100),以及使用的建筑物的立面(100)流入的流体,门面门面装置的方法 包括,特别地,由流入的流体被引入到通道开口(3)和在所述通道开口(3)通过导向件(4)或几个Leitelementelemente(4)被偏转并沿着导向件(4)或Leitelementelemente(4) 沿着至少这是由引导元件(4)和导向元件(4)形成至少部分的锥形流体通道(K),被引导到喷嘴装置(20),其中风力发电机单元(30)所引入的能量和 在喷嘴装置(20)加速的流体进入另一形式的能量被转换,使得风能转换成另一种形式nutzba 河
    • 4. 发明申请
    • PRIME MOVER
    • 原动机
    • WO2015006425A2
    • 2015-01-15
    • PCT/US2014045917
    • 2014-07-09
    • MARTINO DOMINICK DANIEL
    • MARTINO DOMINICK DANIEL
    • F03D3/02F03D7/06
    • F03D3/0409F03D1/04F03D3/065F05B2240/211F05B2240/9112Y02B10/30Y02E10/728Y02E10/74
    • A prime mover that is powered by the energy of a fluid is provided. Such a prime mover may include a first fairing, a second fairing spaced apart from the first fairing to define a gap therebetween and a blade assembly mounted on a shaft that extends between the first and second fairings. The first and second fairings each have a curved peripheral edge for directing a fluid into the gap. When the fluid flows into the gap it contacts the blade assembly to thereby rotate the blade assembly about an axis that is defined by the shaft. The prime mover may be mounted on a cell phone tower and used to generate electricity for powering components of the tower and/or for providing electricity to the power grid.
    • 提供了由流体的能量驱动的原动机。 这种原动机可以包括第一整流罩,与第一整流罩间隔开的第二整流罩,以限定其间的间隙;以及安装在轴上的在第一和第二整流罩之间延伸的叶片组件。 第一和第二整流罩各自具有用于将流体引导到间隙中的弯曲周边边缘。 当流体流入间隙时,它接触叶片组件,从而使叶片组件围绕由轴限定的轴线旋转。 原动机可以安装在手机塔上,并用于发电用于为塔的部件供电和/或为电网提供电力。
    • 6. 发明申请
    • SELF-GENERATION APPARATUS
    • 自发电设备
    • WO2012023745A3
    • 2012-04-12
    • PCT/KR2011005870
    • 2011-08-11
    • LEE YOONJAELEE KANGPYUNG
    • LEE YOONJAELEE KANGPYUNG
    • F03D9/00F03B13/00F03B17/06F03D1/00
    • F03D1/04F03B17/06F03D9/008F05B2220/602F05B2240/9112Y02B10/30Y02B10/50Y02B10/70Y02E10/28Y02E10/725Y02E10/728
    • The present invention relates to a self-generation apparatus using wind power and water power. The self-generation apparatus of the present invention comprises a first self-generation unit, a second self-generation unit, and an energy storage and supply unit. The first self-generation unit comprises a wind power generation part generating electric energy by using the wind blowing outside a building, and a supporting assembly supporting the wind power generation part for rotation in the horizontal direction. The second self-generation unit comprises a water power generation part disposed at a water pipe in the building to generate electric energy by using falling tap water, and a water storage unit supplying stored water selectively to the water power generation part. The energy storage and supply unit stores and supplies the electric energy flowing in from at least one of the first and second self-generation units.
    • 本发明涉及使用风力和水力的自发电设备。 本发明的自发电装置包括第一自发电单元,第二自发电单元以及能量储存和供给单元。 第一自动发电单元包括通过使用吹到建筑物外部的风来产生电能的风力发电部分和支撑风力发电部分以沿水平方向旋转的支撑组件。 第二自动发电单元包括设置在建筑物的水管中的水力发电部分,以通过使用自来水下落产生电能,以及水储存单元选择性地向水力发电部分供应储存的水。 能量存储和供应单元存储和供应从第一和第二自动发电单元中的至少一个流入的电能。
    • 8. 发明申请
    • WIND TURBINE
    • 风力涡轮机
    • WO2012028893A2
    • 2012-03-08
    • PCT/HU2011/000090
    • 2011-08-30
    • MÁTRAHÁZI, Janos
    • MÁTRAHÁZI, Janos
    • F03D3/0454F03D3/02F03D9/25F03D13/20F05B2240/9112F05B2240/913Y02B10/30Y02E10/728Y02E10/74
    • The first object of the invention is a roof mounted wind turbine comprising a horizontal-axis cross-flow rotor (1) disposed on a roof (9) parallel with the roof ridge such that, utilising deflector plates (6, 7), the turbine generates electricity from the energy of wind accelerated over the roof. The turbine according to the invention is characterised by that the rotor (1) thereof is disposed in a support frame (2), with the additional components of the apparatus being attached to the support frame (2), said additional components being a generator (3), support rods (5), deflector plates (7), and roof mounting brackets (4). A further object of the invention is an augmented twin-rotor wind turbine mounted on a vertical pole such that it generates electricity from the energy of accelerated wind. The twin-rotor wind turbine according to the invention is characterised by that it has a support frame (2), two vertical-axis cross-flow rotors (1) enclosed in the support frame (2), a middle deflector plate (11) attached to the support pole (10), two side deflector plates (15), and a drive means (13) connected to the shafts of the rotors (1) supported in bearings in the support frame (2), with the middle deflector plate (12) having a streamlined cross-sectional shape and being adapted for reducing air flow, and with the side deflector plates (15) being adapted for bounding the air flow path, where the shaft of one of the rotors (1) is in direct or indirect driving connection with a generator (3), and where the structure is arranged to be rotatable about the support pole (10) such that it can be turned in the direction of wind utilising a tail fin (12). The theoretical basis of the invention related to a roof-mounted wind turbine is that wind speed increases over the wind loaded side of a ridge roof. Wind passing over the ridge hits the rotor at nearly double the average wind speed. A twofold increase in wind speed allows eightfold increase in extractable energy, and therefore electricity may be generated in an amount that is significant for a household even utilising a smaller cross sectional area. The selected rotor type and the manner of placement of the wind turbine provide that harmful environmental effects (noise, visual impact) are minimised. The twin-rotor wind turbine is based on the operating principle that the air flow area is reduced by the side and middle deflector plates, which increases the flow speed at the rotor inlets, and the increased flow velocity will result in an increase in output power proportional to the cube of the wind speed, while the reduction of flow section area causes a power drop only in straight proportion to the section area. Since the highest circumferential speed of the rotor is always lower than the wind speed at the turbine inlet the noise generated by the rotor will not be louder than the noise of the wind.
    • 本发明的第一个目的是一种安装在屋顶上的风力涡轮机,该风力涡轮机包括设置在与屋顶脊平行的屋顶(9)上的水平轴横流转子(1),从而利用偏转板 (6,7),涡轮机通过在屋顶上加速的风能发电。 根据本发明的涡轮机的特征在于,其转子(1)设置在支撑框架(2)中,该设备的附加部件附接到支撑框架(2),所述附加部件是发电机 3),支撑杆(5),偏转板(7)和屋顶安装支架(4)。 本发明的另一个目的是增强的双转子风力涡轮机,其安装在竖直杆上,使得其从加速风的能量产生电力。 根据本发明的双转子风力涡轮机的特征在于,其具有支撑框架(2),包围在支撑框架(2)中的两个垂直轴错流转子(1),中间偏转板(11) 附接到所述支撑柱(10),两个侧偏转板(15),和连接到所述转子的轴的驱动装置(13)(1)支撑在所述支撑框架(2)的轴承,与中间偏转板 (12),其具有流线型横截面形状,并适于减少空气流,并与侧偏转板(15),其适于限制所述空气流动路径,其中,(1)的转子中的一个的轴是直接 或与发电机(3)间接驱动连接,并且其中所述结构布置成可围绕所述支撑杆(10)旋转,使得所述结构能够利用尾翼(12)沿风的方向转动。 与屋顶安装的风力涡轮机相关的本发明的理论基础是风速在脊屋顶的风力加载侧增加。 通过山脊的风以几乎是平均风速加倍的速度撞击转子。 风速增加两倍,可提取能量增加八倍,因此即使利用较小的横截面积,也可以产生对于家庭来说显着的量的电力。 选定的转子类型和风力发电机的布置方式使得有害的环境影响(噪音,视觉影响)降至最低。 双转子风力涡轮机基于这样的工作原理,即通过侧面和中间偏转板来减小气流面积,这增加了转子入口处的流速,并且增加的流速将导致输出功率的增加 与风速的立方成比例,而流动截面积的减小导致功率下降,只与截面积成正比。 由于转子的最高圆周速度总是低于涡轮机入口处的风速,所以转子产生的噪音不会比风的噪音大。
    • 9. 发明申请
    • WIND POWER INSTALLATION
    • 风力发电机组
    • WO2012016264A2
    • 2012-02-09
    • PCT/AT2011000330
    • 2011-08-03
    • PENZ ALOIS
    • PENZ ALOIS
    • F03D3/04
    • F03D3/0454F03D7/06F05B2240/133F05B2240/9112F05B2250/5012Y02B10/30Y02E10/728Y02E10/74
    • A wind power installation is described having a flow channel (1) between two channel walls (2), at least one of which forms an outer wall of a structure (3), having at least one wind turbine (6) which is mounted within the flow channel (1) and the rotor axis of which runs vertically, and having a guide device (11) which shields the turbine rotor (7) in the area of the circumferential side thereof which rotates against the incident-flow direction. In order to ensure advantageous flow conditions, it is proposed that the channel wall (2) form the guide device (11) in the inflow area of the flow channel (1) on the circumferential side of the turbine rotor (7) which rotates against the incident-flow direction, and surrounds the turbine rotor (7) in a circumferential area (12) on the incident-flow side, and that that channel wall (2) which forms the guide device (11) be fitted with a guide wall (13) on the output-flow side of the wind turbine (6), which guide wall (13) is borne on the end face thereof which is remote from the wind turbine (6) such that it can pivot about an axis (14) which is parallel to the rotor axis.
    • 它具有两个通道壁,其中(2)形成的至少一个建筑物的外壁(3),安装有(1)的风力涡轮机(6),转子轴垂直延伸的流动通道内的至少一个之间的流动通道(1)的风力涡轮机, 并且在与所描述的流动旋转周边侧屏蔽引导件(11)的流动方向相反的区域内具有涡轮转子(7)。 为了确保良好的流动条件,所以建议通道壁(2)和在所述流动通道的入口区域使涡轮旋转的转子(7)的导向装置(11)的周侧上的相反的流入方向(1)的涡轮机转子(7)上的上游侧 的周边区域(12)包围并在形成通道壁(2)的引导装置(11)承载在风力涡轮机的下游侧的挡板(13)(6),其在它们的从所述风力涡轮机(6)正面面向远离大约平行的轴线与转子轴线 轴(14)可枢转地安装。
    • 10. 发明申请
    • WINDKRAFTANLAGE
    • 风力发电机组
    • WO2012016260A2
    • 2012-02-09
    • PCT/AT2011/000326
    • 2011-08-03
    • PENZ, Alois
    • PENZ, Alois
    • F03D1/04
    • F03D1/04F05B2240/133F05B2240/9112F05B2250/501F05B2250/5012Y02B10/30Y02E10/728
    • Es wird eine Windkraftanlage mit einem Strömungskanal (2) zwischen zwei Kanalwänden (8), von denen zumindest eine eine Außenwand eines Bauwerks (1) bildet, und mit innerhalb des Strömungskanals (2) gelagerten, über die Höhe des Strömungskanals (2) verteilten, axial durchströmten Windturbinen (3) beschrieben. Um für vorteilhafte Strömungsverhältnisse im Strömungskanal (2) zu sorgen, wird vorgeschlagen, dass den einzelnen Windturbinen (3) in Anströmrichtung (18) eine Leiteinrichtung (11) mit einander bezüglich des Strömungskanals (2) gegenüberliegenden, je für sich verschwenkbaren Leitwänden (12) vorgelagert ist, die im Bereich ihrer von der Windturbine (3) abgewandten Stirnseite (13) an der zugehörigen Kanalwand (8) schwenkbar gelagert und zwischen einer im Wesentlichen in Richtung der zugehörigen Kanalwand (8) verlaufenden Ausgangsstellung und einer zueinander geschwenkten, den Strömungskanal (2) schließenden Endstellung zumindest schrittweise verlagerbar sind.
    • 它是具有两个管道壁,其中(8)形成一个建筑物(1)的外壁中的至少一个之间的流动通道(2)的风力涡轮机,并在该流道的高度安装有流道(2)(2)内分布, 轴流式风力涡轮机(3)进行说明。 为了保证在所述流动通道(2)有利的流动条件,所以建议在流动方向上的单独风力涡轮机(3)(18)的隔板(11)彼此相对于所述流动通道(2)相对的可枢转的未混合的挡板(12) 端面在所述风力涡轮机(3)(13)的区域背向前面有,枢转地安装在相关联的信道壁(8)和在相关联的导管壁(8)的方向上的大致之间延伸开始位置和相互枢转,所述流动通道( 2)关闭结束位置是至少位移逐步。