PROBLEM TO BE SOLVED: To produce an ultimate automobile that can be traveled by natural energy in a pollution-free and fuel-free manner, to create an electric vehicle which is traveled by generating wind power while utilizing a wind pressure since the vehicle receives winds when traveled, and to solve the problem that a wind power generation device is required therefor which increases power generation output by efficiently rotating a windmill for wind power generation since initial activation is very important.SOLUTION: Power is efficiently generated by a wind power generation device in which a generator is attached in an integral structure to a rotary shaft of a rotary windmill where Coanda effect acts in a synergistic chain manner. In initial activation, the wind power generation device is rotated in an idling manner by a storage battery and at the time of start, motor-driven start is performed by the storage battery. When an automobile is started, the automobile receives a wind pressure right in front, and a rotary wind power generation device generates power by the wind pressure. When the automobile is charged, power-stored and accelerated while being traveled, power generation output is increased. When the automobile is switched to motor traveling and stopped, the automobile is switched to idling rotations. By repeating this operation, the problem may be solved.SELECTED DRAWING: Figure 1
【課題】無公害でしかも燃費無料の自然エネルギーで走行が可能な究極の自動車を創作する。車は走ると風を受ける、この風圧を利用して風力発電で走る電気自動車を創る。そのためには初期起動が大変重要で風力発電用風車が効率良く回転し、発電出力を増大する風力発電装置が必要である。【解決の手段】コアンダ効果が相乗的に連鎖作用するロータリー型風車の回転軸に発電機を一体構造に取り付けた風力発電装置で効率良く発電する。初期起動は蓄電池で風力発電装置をアイドリング回転し、発進時は蓄電池でモーター駆動発進する、発進すると真正面から風圧を受けて風圧でロータリー風力発電装置が発電し走行しながら充電蓄電、加速すると発電出力が増加し、モーター走行に切替え、停車するとアイドリング回転に切替える、この繰り返しで課題を解決することを特徴とする。【選択図】 図1
WIND POWER GENERATION AUTOMOBILE
風力発電自動車
2017-04-27
Patent
Elektronische Ressource
Japanisch
Wind power generation assembly and wind power generation automobile
Europäisches Patentamt | 2023
|Electric automobile with wind power generation device
Europäisches Patentamt | 2021
|