JP4441793B2 - Folding horizontal axis windmill - Google Patents

Description

The present invention relates to a practical windmill for taking out wind energy as a rotational force.

Fumio Matsu, “Wind and Windmill Q & A 120”, Japan Power Company, published on June 25, 2002, Chapter 3, 60 / 61P

Problems of conventional wind turbines (a) The design and production of the blade shape is complicated and difficult.
(B) A large amount of stress is applied to the blade mounting portion during rotation, and the material must be made of a strong material to resist it.
(C) Increasing the number of blades in order to achieve high efficiency complicates the structure and increases the cost.
(D) Maintenance is difficult in strong winds.
(E) It is difficult to disassemble and store.

In the present invention, the ends of three pipes of the same size are connected with pins and assembled into an equilateral triangle shape, and ropes are provided from the end portions (windward side and leeward side) of the rotation shaft to the three apex portions of the equilateral triangle shape. Install the rotating shaft at the center of the equilateral triangle formed by pipes.
In addition, a blade is provided between a portion connecting the end portion (windward side) of the rotating shaft and the apex portion of the equilateral triangle shape and the pipe equally. Similarly, the remaining two apex portions are provided with blades, and a total of three blades are installed on the windward side. The above problem is solved by providing a horizontal axis wind turbine having a configuration in which a total of six blades are provided by installing three blades on the leeward side as well as the blades installed on the leeward side.

It can be manufactured at low cost with an inexpensive material, and wind energy can be taken out as rotational force with low rotation and high torque by 6 large blades.
It can be folded by removing one pin during strong winds and during transportation, making it easy to disassemble and store.

The procedure of the embodiment of the present invention will be described below.
(A) Three pipes or rods (1) are formed into a regular triangle shape, and the ends are connected with pins (6).
(B) The rotation axis (2) is provided at the center of an equilateral triangle.
(C) The other end of the rotating shaft (2) from the end of the rotating shaft (2) through the apex of the equilateral triangle with the spring (5), rope or cable (3) of the same size. The connecting operation is performed for three places, and the rotation axis (2) is fixed to the center of the equilateral triangle.
(D) Six blades (4) are alternately installed in the triangular outline formed between the pipe (1) half and the rope (3).

The material of the wings is a waterproof fabric or vinyl sheet.

In the present invention, the rotating shaft is directed toward the wind, so that the six blades receive wind energy and drive the rotating shaft (2) via the pipe (1), the rope (3) and the spring (5).

  As shown in FIG. 12, it may be attached with three blades depending on the level of wind force and the situation.

Perspective view of the present invention Plan view of the present invention Side view of the present invention Enlarged view of portion A in FIG. Enlarged view of portion B in FIG. Enlarged view of portion C in FIG. The figure seen from the X side in FIG. Enlarged view of portion D in FIG. The perspective view of the procedure 1 which shows the time of folding of this invention The perspective view of the procedure 2 which shows the time of folding of this invention The perspective view of the procedure 3 which shows folding completion of this invention The perspective view which shows the three-blade specification of this invention

Explanation of symbols

1 Pipe or rod 2 Rotating shaft 3 Rope or cable 4 Blades (To make it easy to distinguish the six blades, the outside of the blades are hatched and the inside is a grid line.)
5 Spring 6 pin

Claims (1)

(A) Three ends of the same size pipe or rod (hereinafter omitted, referred to as a pipe) are connected with pins to form an equilateral triangle.
(B) A regular triangle formed by connecting a pipe or rope (hereinafter referred to as a rope) from each apex of the regular triangle to the ends (windward and leeward) of the rod-shaped rotating shaft and assembled with pipes. Install so that the rotation axis is located at the center of
(C) A blade is provided between a portion that equally divides the pipe and the rope connecting the end portion (windward side) of the rotating shaft and the apex portion of the regular triangle shape. Similarly, the remaining two apex portions are provided with blades, and a total of three blades are installed on the windward side. A total of six blades are configured by installing three blades on the leeward side as well as the blades installed on the leeward side.
A horizontal axis type wind turbine having the above configuration.

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