KR20100027509A - Rotors and wings for windmills - Google Patents

Abstract

PURPOSE: A rotator and blades for a windmill are provided to create torque even at wind velocity of about 2m/sec by regulating the number of blades from 2 to 12. CONSTITUTION: A rotator for a windmill comprises a rotary shaft cylinder(1), a plurality of arms(2) formed on the rotary shaft cylinder, a rotation body(3) with an outer plate(4), a dozen of blade fitting parts(5) with blade fitting holes(6), and tap holes(7). The rotation body is formed on the outer ends of the arms. The blade fitting parts are formed on the outer plate of the rotation body at the intervals of 30 degrees around the central axis. The tap holes are formed on both sides of the blade fitting holes. The post of a blade is inserted in each blade fitting hole.

Description

Rotors and wings for windmills

The present invention allows the installation of the number of wings from 2 to 12 in order to be able to generate a rotational force even in the wind speed of about 2m per second, and to make the rotational force as light as possible, according to the region of the wind speed The present invention relates to a windmill rotating body and wings that have been developed for easy installation while controlling the number of wings.

Conventional wind power generators are mainly made of the type of propeller, savonews, American multi-ick, motorcycle, helical and Darius.

The present invention developed at the end of the experiment and research for a long time by referring to the above points and comparing and analyzing the number of wings according to the environment of the region and the wind speed by making the configuration of the wing assembly easy while lightening the weight of the rotating body It was set up to control the installation and to produce the required power source.

In order to achieve the above object, the structure of the rotating body is classified into two types, and each rotating body is formed of an arm so as to easily pass the wind blowing around the rotating shaft tube, and the outer end of the arm To form a rotating body and form 12 wing holders in the outer end of the rotating body at intervals of 30 degrees with respect to the central axis as a wing holder and a wing holder column, and the wing holder and the wing holder pillar. In order to be able to insert and fix the wing posts.

By making the weight of the rotating body as light as possible according to the region and the wind speed, it is possible to increase the efficiency of generating energy generation even at the speed of 2m, 3m, 4m, 5m, etc. Expected.

In the production structure of the windmill rotating body (A) (A-1)

In forming the rotating body A, a plurality of arms 2 are formed on the rotating shaft tube 1, and the rotating body 3 is formed on the outer end of the arm 2, and thus formed. Rotating body outer plate (4) of the rotating body (3) to the twelve wing holders (5) at a 30-degree interval with respect to the central axis, and in this way to the wing holders made by the protrusions (6 ) And drilled the diaphragm tap hole (7) on both sides of the twelve wing holes (6) of the rotating body (3) made in this way, and in this way to the twelve wing holes (6) The wing pillar 18 can be inserted and fastened and the rotor A-1 is formed to form a plurality of arms 9 on the rotating shaft 8 in the zoom and the arms 9 At the outer end of the rotating body (10) to form and thus formed by the rotating body (10) Twelve wing holder pillars 11 are formed at intervals of 30 degrees with respect to the center axis at the center, and the tapping holes 3 for tightening are drilled on both sides of the twelve wing holder pillars 11 thus formed. The outer end portion of the wing holder pillar 11 is provided to form a wing holder hole (12).

This was formed by inserting the wing pillars 18 into the wing holder holes 12 of the twelve wing holder pillars 11 formed as described above, and punctured both sides of the tightening tap hole 13 and the wing pillar 18. Fastening and fastening with the tapping hole 13 and the nut of the drilling hole 20 and the wing holder pillar 11 and formed on the outer end of the wing pillar 18 with a washer and bolt from the inside of the rotating body 10 The fastening and fastening and fastening of the nut hole (19), and a plurality of fastening holes (15) in the outer periphery of the detachable rotating body back plate (14) and drilled eight fastening holes (16) in the center The rotary shaft insertion hole (17) is formed so that it can be fastened to the rear surface of the rotating body (A) (A-1) if necessary, and the wing column (18) in the configuration of the wing (B). The outer end of the) forms a nut hole (19) having a tab and punctures the binding hole (20) on both sides of the wing pillar (18). The wing pillar support plate 21 is formed at the inner side end of the wing pillar 18 that has been provided in the same manner, and the wing holder 22 joined to the wing plate 23 is formed at the wing pillar support plate 21 which is thus provided. It was formed.

In this way, the system method, which is made up of the same structure, was classified into 3 wing type, 4 wing type, 6 wing type, 8 wing type and 12 wing type, and 12 wing type was applied.

Example

Simple comparison of energy generation

* Existing three-wheeled windmill (Pie 0.5m, wind angle 10 degrees)

3m / sec turnover 70RPM, torque 0.2K

* 12 wings (invention) both (A) (A-1) wing pie 0.5m, wind angle 10 degrees)

Wind speed 3m / sec turnover 120RPM, torque 0.9K

*conclusion

Compared with the conventional three-wheeled windmills, the rotor for windmills showed a torque increase ratio of more than 1: 4.5 times, showing a 4.5 times difference in force under the same conditions.

1 is a perspective view of a rotating body for a windmill

2 is a perspective view of a rotating body for a windmill

3 is a perspective view of a rotating body back plate

4 is a perspective view of the wing

Explanation of symbols on the main parts of the drawings

A, A-1: rotating body B: wing 1; Rotating shaft

2: Arm 3: Rotating Body 4: Rotating Body Outer Plate

5: wing ring portion 6: wing ring hole 7: tapping hole for tightening

8: rotating shaft tube 9: arm 10: rotating body

11 wing post pillar 12 wing post hole 13 tightening tap hole

14: detachable rotating body back plate 15: binding fastener 16: binding hole

17: rotation shaft insertion hole 18: wing pillar 19: nut hole

20: binding hole 21: wing pillar support plate 22: wing bearing portion

23: wing plate

Claims (4)

A plurality of arms 2 are formed on the rotating shaft tube 1, and the outer body of the rotating body 3 of the rotating body 3 is formed by forming the rotating body 3 at the outer end of the arm 2 and thus forming the rotating body 3. (4) in the projections to the 12 wing holders (5) at intervals of 30 degrees with respect to the central axis and the projections made in this way to perforate the wing holder hole (6) and thus rotated Tightening tap holes (7) were drilled on both sides of the twelve wing holders (6) of the body (3), and then the wing pillars (18) were inserted into the twelve wing holders (6). Rotors and wings for windmills. In forming the rotating body A-1, a plurality of arms 9 are formed on the rotating shaft 8 in the zoom, and the rotating body 10 is formed on the outer end of the arm 9 and thus formed. On both sides of the twelve wing holder pillars (11) formed by forming the twelve wing holder pillars (11) at intervals of 30 degrees with respect to the center axis on the rotating body (10). Perforated tapping hole (3), the outer end of the wing post pillar 11 to form a wing post hole (12), and thus formed of the 12 wing post pillar (11) Tightening tap hole of the binding hole (20) and the wing ring pillar (11), which is inserted into the wing pillar (18) in the wing hole (12) and drilled on both sides of the tightening tap hole (13) and wing pillar (18) ( 13) and fasten with nuts and formed on the outer end of the wing column 18 with a washer and bolt from the inside of the rotating body (10) Rotator and wing for windmill made by fastening fastening with quasi nut ball (19). A plurality of fastening holes 15 are laid on the outer circumference of the detachable rotating body back plate 14 and the eight fastening holes 16 are drilled, and a rotating shaft insertion hole 17 is formed at the center thereof. (A) Rotors and vanes for windmills that allow them to be attached to the back of (A-1). In the configuration of the wing (B) to form a nut hole (19) having a tab formed on the outer end of the wing pillar (18), and to puncture the binding hole (20) on both sides of the inside of the wing pillar (18) In the inner side end of the wing pillar (18) to be given to form a wing pillar support plate 21 and the wing pillar support plate 21 thus formed to form a wing bearing portion 22 is joined to the wing plate (23) Rotating rotors and wings for windmills.

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