KR20090086726A - Rotating body for windmill - Google Patents

Abstract

A rotator for a windmill is provided to convert the speed of wind into maximum energy for generation of electricity by controlling the number of vanes according to the speed of wind. A rotator for a windmill comprises a pulley body(1), a vane mounted post(3), a plurality of arms(4), and a boss(5). The post for mounting a dozen of vanes is integrally fixed at an outer rim plate of the pulley body. A plurality of arms are formed in the inner side of the pulley body. A plurality of arms are integrally formed with the boss having a bearing and is rotated.

Description

Rotors for windmills

The present invention is installed on the site while adjusting the number of wings according to the wind speed of the region to the windmill rotating body developed to facilitate the installation and disassembly while being able to convert the blowing wind speed into power generation energy It is about.

Conventional windmills are mainly made of fixed-winged propeller, savonews, Darius, American multi-ick and Dutch windmills.

The present invention developed in view of the above point is set to the problem to be easily installed by adjusting the number of wings according to the wind speed of the strong wind or weak wind area so that the blowing wind speed can be converted into the maximum generation energy.

In order to achieve the above object, 12 wing case posts are fixed on the outer plate of the pulley type body at 30 degree intervals, and an integral rotating body is formed by the boss and the arm so that the number of wings with the wind direction according to the wind speed can be obtained. It was adjusted and put in place.

Since the number of wings can be adjusted according to the wind speed, the average wind speed can be installed according to the area of 3m, 4m, 5m, 6m per second to increase the power generation efficiency.

In the manufacturing structure of the windmill rotating body (A), the external wing plate (2) of the pulley-type body (1) is fixed to the fixed wing 12 pillars (3) at 30-degree intervals in one piece. The inner side of the pulley body (1) formed three to many arms (4) to form a bearing (17) integrally with the boss (5) with a built-in to enable rotation, the wing The lower part of the pillar 3 is formed of a wing support pillar supporting body 10 formed by puncturing a plurality of fastening holes 11 so that an integral type is formed on the outer reclining plate 2 of the pulley body 1. In the configuration of the wing, the wing column tube 7 is connected to the front side of the wing plate 8, and the wing fixing body 16 is bonded and fixed. Weld by piece and electric spot and blow on the tip of wing board 8 The other would have a movably 9 windmills rotating body (A) for a subject depending on the installation by fixing the direction of the wind.

Simple comparison of energy generation (same wind area)

* Conventional three-wheeled windmill (wing pie 0.5m, wind angle 10˚)

3m / sec turnover 70RPM of wind speed, torque 0.2K

* 12 vanes (invention) windmill (wing pie 0.5m, wind angle 10˚)

Wind speed 3m / sec Turnover 120RPM Torque amount 0.9K

conclusion

Compared with the conventional three-wheeled windmills, the rotor for windmills showed a torque increase of more than 1: 4.5, showing a 4.5-fold difference in force at the same wind speed.

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

2 is a blade insert

3 is a cross-sectional view of the rotating body for a windmill

4 is a perspective view of the wing

Explanation of symbols on the main parts of the drawings

A: rotating body for windmill

DESCRIPTION OF SYMBOLS 1 Pulley type body 2 Outer plate 3 Wing-mounted column

4: arm 5: boss 6: windmill horizontal axis

7: wing pillar tube 8: wing plate 9: wind direction

10: wing body

11: Fastening hole (bolt nut fastening hole) 12: Fastening hole

13: generator 14; Controller 15: vertical axis of rotation

16: wing fixing body

Claims (3)

In the manufacturing structure of the windmill rotating body (A), the external wing plate (2) of the pulley-type body (1) is fixed to the fixed wing 12 pillars (3) at 30-degree intervals in one piece. Rotating body for windmill, which is formed inside the pulley body 1 by forming an arm 4 of three to many, and integrally formed with the boss 5 in which the bearing 17 is built. . The outer plate (2) of the pulley-type body (1) by forming the wing support pillar support body (10) formed by drilling a plurality of fastening holes (11) in the lower part of the wing holder pillar (3) Rotor for the windmill that is fastened and fastened with bolt nuts to be integrated into the unit. In the configuration of the wing, the wing column tube 7 is connected to the front side of the wing plate 8, and the wing fixing body 16 is bonded and fixed, and the plurality of pieces and the electric spot are welded. A windmill rotor having a wind vane (9) installed and fixed to the end of the wing plate (8) to move the windmill rotor (A) according to the wind direction.

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