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    • 2. 发明公开
    • HORIZONTAL AXIS ROTATORY FORCE-GENERATING APPARATUS HAVING ROTARY BLADES ROTATING WHILE REVOLVING
    • EP4357607A1
    • 2024-04-24
    • EP22825314.2
    • 2022-06-15
    • Lee, Sang Cheol
    • Lee, Sang Cheol
    • F03D3/00F03D3/06F03D7/02
    • Y02E10/74F03D7/02F03D3/06F03D3/00
    • The present invention relates to a horizontal axis rotational force generator using the flow of a fluid, comprising: one or more blade revolution shaft rotating mechanisms each having two or more blades spaced apart from one another at the same revolution phase angle intervals in such a way to revolve around a blade revolution shaft extending horizontally and simultaneously rotate around blade rotation shafts parallel to the blade revolution shaft, if a pressure is applied from the flow of the fluid thereto, to apply rotational forces to the blade revolution shaft; a blade revolution shaft rotating mechanism support structure functioning as a shaft support allowing the blade revolution shaft to rotate axially and adapted to supportingly rotate the blade revolution shaft rotating mechanisms to the left and right at given heights; and a revolution and rotation gear shifting interlocker for shifting the revolution angular velocities of the blade revolution arms to angular velocities 0.5 times higher than the blade revolution arms in the opposite rotational direction to the blade revolution arms to transmit the shifted angular velocities to the blade revolution shafts, whereby when the blade revolution shaft of the blade revolving and rotating around the blade revolution shaft passes over the blade revolution shaft in the vertical direction thereto, a relation between the revolution phase angle and the rotation phase angle of each blade is set to allow the surface of the blade to be oriented in the horizontal or vertical direction to the blade revolution shaft, so that the blade automatically has a blade revolution shaft rotating mechanism rotational direction angle on the horizontal plane at which the blade revolution shaft rotational force is produced to the maximum using the flow of the fluid.
    • 6. 发明公开
    • IMPACT TYPE WIND-DRIVEN POWER GENERATING DEVICE
    • PRALLFLÄCHENARTGIEWINDGETRIEBENE ENERGIEERZEUGUNGSVORRICHTUNG
    • EP2660466A4
    • 2017-10-04
    • EP11852639
    • 2011-07-28
    • BEIJING HENGJU CHEMICAL GROUP CORP
    • GUO WENLI
    • F03D9/00F03D1/04F03D3/00F03D3/04F03D7/06F03D9/35
    • F03D7/02F03D1/04F03D3/005F03D3/04F03D3/0418F03D9/35F05B2210/403F05B2240/131Y02E10/72Y02E10/728Y02E10/74Y02P70/523
    • An impact type wind-driven power generating device is classified into a vertical shaft impact type wind-driven power generating device and a horizontal shaft impact type wind-driven power generating device. The two types of the impact type wind-driven power generating device adopt a power rotor mechanism (10) of a multi-stage impacting blade to utilize the energy of in-coming wind to the maximum extent, thereby improving the utilization of the wind energy. The energy of the in-coming wind is increased due to the height difference and the lateral exhaust of a high-altitude exhaust duct (8), so that the power rotor (10) can generate electric power at a low load even in a sunny windless day. The power generating device can be manufactured into a power generator set with large power and small volume per unit, being convenient to transport, install and maintain, thereby greatly reducing the investment cost of unit power generation amount. The power generating device can receive in-coming wind from any direction without a complicated variable propeller pitch system. A transmission system and a power generator may be arranged on the ground, which is convenient to operate and maintain. The power generating device overcomes the disadvantages of low utilization of the wind energy and the power rotor being difficult to be activated.
    • 冲击型风力发电装置分为立轴冲击型风力发电装置和水平轴冲击型风力发电装置。 两种冲击式风力发电装置采用多级冲击叶片的动力转子机构(10),最大限度地利用入风能量,提高了风能利用率 。 由于高空排气管(8)的高度差和横向排气,进入风的能量增加,使得即使在阳光充足的情况下动力转子(10)也可以在低负载下发电 无风的日子。 该发电装置可以制造成功率大,单位体积小的发电机组,便于运输,安装和维护,大大降低了单位发电量的投资成本。 发电设备可以从任何方向接收进来的风,而不需要复杂的可变螺旋桨桨距系统。 传动系统和发电机可布置在地面上,便于操作和维护。 该发电装置克服了风能利用率低的缺点,且动力转子难以启动。