発明の詳細な説明Detailed Description of the Invention
本発明は、揚力、風圧で回転を促し、強風に適応する、風車を得る事にある、 The present invention is to obtain a windmill that promotes rotation with lift and wind pressure and adapts to strong winds.
従来は、金属製、翼状羽根の、揚力で回転を促していたが、強風時の回転に難があり、製作費が高くなる等の欠点があった。 Conventionally, metal and wing blades have been urged to rotate by lift, but there are drawbacks such as difficulty in rotation in strong winds and high production costs.
図について、説明すれば、
一、五図は、翼状羽根の、裏面を鈎状に切り取った形1とし、羽根前方からの風で、表面揚力が働き、回転力とし、羽根後方からの風で、鈎状面に当たる、風圧力との両方で、回転力を得るもので、全体を弓状に曲げ、剛性を高め、翼表面に、差し込み連結孔部2を設けた翼状羽根3と、翼裏面に差し込み連結孔部4を設けた、翼状羽根5を形成する。羽根支持は、舵輪状八本支持体6とし、芯パイプ部7より、風圧抵抗の少ない、楕円状腕木8の中間を曲げた形で設け、先端に、差し込み連結板部9を付設、腕木間を、楕円棒体10を半円状に付設、腕木の強化を図る。心棒体11に、向かい合わせて取付固定、連結孔部を表面に設けた羽根と、裏面に設けた羽根を、交互に取付、ボルト穴12等で固定すれば、全体が一体化し、剛性が高まる、
順風時の、揚力による回転は速く、表面が外側になる、羽根腕木を長くし、裏面が外側になる、羽根腕木を短くする事で、揚力回転と、風圧回転とを同時にする事が可能となり、回転圧力の、大きい風車となる。
金型による、一体成形とすれば、大量生産も可能で、製作費も低く出来る。
六−八図は、翼状羽根裏面を、鈎状に切り取り、表面に差し込み連結孔部を設け形成した、翼状羽根を、舵輪状六本支持体13と組み合わせた、風車で、鈎状切り取り面に当たる、風圧力を主回転力とし、強風に適した物となり、風車台14と、主柱台15を、バネ16ボルト等で連結する、強風時にバネが作動し、風車台、風車が斜めに傾き、暴風等の強風を逃がしながらの風車回転となり、圧力の大きい、安定した回転が得られる、風車となる。
九−十図は、鈎状切り取り面を、外側とし、舵輪状四本支持体17と組立、強風時の、表面揚力と、裏面風圧力を、同時の働き、回転力とするもので、強風時に適応した風車となる。回転圧力が高く、プロペラ等を装着すれば、風力揚水、水質浄化、養殖漁場への酸素供給等、農業、漁業振興に役立つ、風車となる。、If you explain about the figure,
Fig. 1 and Fig. 5 show the shape of the winged blade, with the back side cut into a bowl shape, the wind from the front of the blade, the surface lift works, the rotational force, the wind from the rear of the blade hits the bowl-shaped surface, Both the pressure and rotational force are obtained, the whole is bent into an arcuate shape, the rigidity is increased, and the blade-shaped blade 3 provided with the insertion connecting hole 2 on the blade surface, and the insertion connecting hole 4 on the blade back surface. The provided wing-like blade 5 is formed. The blade support is a rudder wheel-like eight support body 6, which is provided with a bent middle part of an elliptical arm 8 having a lower wind pressure resistance than the core pipe part 7, and an insertion connecting plate part 9 is attached to the tip. The elliptical rod body 10 is attached in a semicircular shape to reinforce the arms. If the blades provided on the front surface and the blades provided on the back surface are alternately mounted and fixed with bolt holes 12 or the like, the whole is integrated and the rigidity is increased. ,
Rotation due to lift during fast winds is fast, the surface is on the outside, the blade arm is lengthened, the back is on the outside, and the blade arm is shortened, so it is possible to simultaneously rotate the lift and wind pressure. It becomes a windmill with a large rotational pressure.
If it is an integral molding with a mold, mass production is possible and the production cost can be reduced.
Fig. 6-8 shows a windmill in which the rear surface of the wing blade is cut into a bowl shape, and a connecting hole is formed on the front surface. The wing blade is combined with the six steering wheel-like support bodies 13 and hits the hook-shaped cutting surface. The wind pressure is the main rotational force, and it is suitable for strong winds. The windmill base 14 and the main column base 15 are connected by springs 16 bolts, etc. The spring is activated during strong winds, and the windmill base and windmill are inclined The windmill rotates while escaping strong winds such as storms, resulting in a windmill with high pressure and stable rotation.
Fig. 9-10 shows that the saddle-shaped cut-out surface is the outside, the steering wheel-like four support body 17 is assembled, and the surface lift force and the back surface wind pressure at the time of strong wind are simultaneously acting and rotating force. A windmill adapted to the occasion. If the rotation pressure is high and a propeller is installed, it will be a windmill that is useful for the promotion of agriculture and fisheries, such as wind pumping, water purification, oxygen supply to aquaculture fishing grounds. ,
翼状羽根表面に、取付孔部を設けた、実施例を示す、一部断面構成図である。It is a partial cross section block diagram which shows the Example which provided the attachment hole part in the wing | blade shaped blade | wing surface.
翼状羽根裏面に、取付孔部を設けた、実施例を示す、一部断面構成図である。It is a partial cross section block diagram which shows the Example which provided the attachment hole part in the wing-like blade back surface.
舵輪状支持体に、翼状羽根を取付た、実施例を示す、一部断面平面図である。It is a partial cross section top view which shows the Example which attached the wing-like blade | wing to the steering wheel-like support body.
舵輪状支持体に、翼状羽根を取付た、実施例を示す、一部断面側面図である。It is a partial cross section side view which shows the Example which attached the wing-like blade | wing to the steering wheel-like support body.
舵輪状支持体に、翼状羽根を取付た、実施例を示す、斜視図である。It is a perspective view which shows the Example which attached the wing-like blade | wing to the steering wheel-like support body.
舵輪状六本支持体に、表面に取付孔部を設けた羽根だけを取付た、実施例を示す、一部断面平面図である。It is a partial cross section top view which shows the Example which attached only the blade | wing which provided the attachment hole part on the surface to the six-wheeled steering wheel support body.
舵輪状六本支持体に、羽根を取付た、実施例を示す、一部断面側面図である。It is a partial cross section side view which shows the Example which attached the blade | wing to the six-wheeled steering wheel support body.
舵輪状六本支持体に、羽根を取付た、実施例を示す、斜視図である。It is a perspective view which shows the Example which attached the blade | wing to the six-wheeled steering wheel support body.
舵輪状四本支持体に、羽根を取付た、実施例を示す、一部断面平面図である。It is a partial cross section top view which shows the Example which attached the blade | wing to the steering wheel-like four support body.
舵輪状四本支持体に、羽根を取付た、実施例を示す、一部断面側面図である。It is a partial cross section side view which shows the Example which attached the blade | wing to the steering wheel-like four support body.
