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    • 1. 发明专利
    • Power mechanism
    • 动力机构
    • JPS595884A
    • 1984-01-12
    • JP11570082
    • 1982-07-03
    • Fujimura NoboruYasuto SugasawaTakeshita Shigeo
    • SUGASAWA YASUTO
    • F03B17/04F03B17/00
    • F03B17/005
    • PURPOSE:To enable to take out energy by a method wherein a pressure difference is produced artificially between atmospheric pressure, and water is recirculated to rotate a turbine. CONSTITUTION:When a valve is opened, water in the lower part of a water tank is pushed up suddenly by the pressure difference between a water level in the evacuated space in the water tank and the same in a tube 2 opened to the atmospheric pressure, a non-return valve 6a is opened by the vacuum and the water in the evacuated water tank 1a is flowed into a water introducing pipe. The turbine 8 is driven, the water is flowed through a pipeline, the non-return valve 6b is opened to flow the water into the tank 1a again and the non-return valve 6c is opened to recirculate the water into the water tank 1b. The process of the same manner is repeated to rotate the turbine continuously and thereby taking out the energy.
    • 目的:为了能够通过人造地在大气压之间产生压力差并且水被再循环以使涡轮旋转的方法来取出能量。 构成:当阀门打开时,水箱下部的水由于水箱的抽空空间中的水位与开启到大气压力的管2中的水位之间的压差而突然上升, 通过真空打开止回阀6a,并且抽真空水箱1a中的水流入水引入管。 涡轮8被驱动,水流过管道,止回阀6b打开以再次将水流入罐1a,并且止回阀6c打开以使水再循环到水箱1b中。 重复相同方法的过程以连续地旋转涡轮机,从而取出能量。
    • 8. 发明专利
    • HYDRAULIC POWER GENERATING METHOD
    • JPS5656976A
    • 1981-05-19
    • JP13183179
    • 1979-10-15
    • SUGAZAWA YASUTOTAKESHITA SHIGEOFUJIMURA NOBORU
    • SUGASAWA YASUTOTAKESHITA SHIGEOFUJIMURA NOBORU
    • F03B13/12
    • PURPOSE:To improve the efficiency of the hydraulic power generation by accelerating the speed of water flow acting on a turbine by impulse waves generated by discharging electricity in the pressure gas within a tightly closed cylinder. CONSTITUTION:Water stored in a water source 20 passes through a water conductive pipe 21, and is introduced in a discharge cylinder 23 through a check valve 22, and rotates a turbine 25 through a flow quantity regulating valve 24, and discharged through a water exhaust pipe 26. Water introduced into the discharge cylinder 23 through the check valve 22, is gradually stored in the discharge cylinder 23 through the check valve 22 by the pipe resistance of the flow quantity controlling valve 24, the turbine and the like to increase the gas pressure within the discharge cylinder 23. In a case where this gas pressure has reached a maximum pressure, when a discharge of electricity is generated, a strong and fierce pressure is applied to the stored water by the synergistic operation of impulse waves resilient waves and rapid thermal expansion of the gas to be compressed, and the speed of the flow directed toward the turbine is accelerated and the turbine is strongly rotated to generate a power. The impulse wave and the like are difficult to attenuate in water and effectively transmitted to the turbine vanes.