JP2012219813A - Gear interlocking type wind power generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wind power generator that continuously generates electric power by constantly moving a wind turbine, in order to solve the following problem: a conventional wind power generator cannot generate electric power in a windless state.SOLUTION: A gear interlocking type wind power generator converts small electric power for moving a motor to large power by increasing rotational motion using gears and a turbine to constantly rotate a large wind turbine, and generates power in a windless state.

Description

  The present invention relates to a wind power generator having a mechanism capable of always supplying stable power even in a windless state.

  Conventional wind power generators generate electricity by rotating the wind turbine by the force of wind and transmitting the rotational motion to the generator.

Problems to be solved by the invention

In a conventional wind power generator, it was impossible to generate electricity in a windless state.
The present invention has been made to solve the above problems.

Means for solving the problem

The gears are installed inside the support so that the gears increase in order from the small windmill to the middle windmill and from the middle windmill to the large windmill. A motor is installed on the central axis of the small wind turbine, a turbine is installed on the central shaft of the medium wind turbine, and a turbine, brake device, and generator are installed on the central shaft of the large wind turbine. A sensor is installed at the top of the nacelle to detect the direction of the wind and move the nacelle with wind power.
A switch, charger, battery, and transformer will be installed at the base of the column.
A gear-linked wind power generator having the above configuration.

Effect of the invention

Conventional wind power generators cannot generate electricity in the absence of wind.
In the present invention, by using a gear, it is possible to generate a large rotational force from a small rotational force, and to perform an efficient and stable wind power generation with a small electric power even in a no-wind state.

Overall view of the present invention Internal front view of the present invention Internal side view of the present invention

Embodiments of the present invention will be described below.
(A) The gear (4) is installed in the column (5) so as to increase in order from the lower side to the middle and from the middle to the upper side.
(B) A nacelle (6) is installed on the upper part of the support column, a clutch (16) is provided between the support column and the nacelle, and a sensor (15) is installed on the upper part of the nacelle.
(C) The interior of the nacelle includes a turbine A (12), a brake device (13), a gear, and a generator (14) provided on the central shaft (9) of the large windmill (1).
(D) A small windmill (3) is provided below the support, and the motor (10) and the smallest gear are installed on the central shaft (7). Further, a middle wind turbine (2) is provided in the middle of the support column, and a turbine B (11), the smallest gear, and the largest gear are installed on the central shaft (8).
(E) A switch (17), a charger (18), a battery (19), and a transformer (20) are provided at the column base.
The present invention has the above structure.
When the present invention is used, electricity is sent to the motor (10) from the battery (19) or the household power supply. When the motor is activated, the small windmill (3) rotates, and the smallest gear (4) rotates by the rotational force. Sequentially, the gears rotate to transmit power.
Since the gears are installed so as to increase from the bottom to the top, the power increases, and the turbine B (11) is operated by the power reaching the central wind turbine center shaft (8), and the intermediate wind turbine (2). Rotates. Along with this, the smallest gear on the central wind turbine central shaft (8) rotates to transmit power upward.
The rotational force that has reached the upper portion of the column further by the gear is transmitted to the clutch (17) and reaches the gear installed on the large windmill rotating shaft (9). Turbine A (12) is activated, the large windmill (1) rotates, and the rotational motion is transmitted to the generator (14) to generate electricity.
The sensor (15) installed on the upper part of the support column senses the direction of the wind, and the large windmill (1) is directed in the direction in which the wind blows, so that the wind can be received efficiently. In addition, a brake device is installed as a countermeasure against strong winds such as typhoons.
The electricity generated by the generator passes through the inside of the pole, passes through the transformer of the pole, and is sent to the household power supply.

1 large windmill, 2 medium windmill, 3 small windmill, 4 gears, 5 props, 6 nacelle, 7 small windmill central axis, 8 medium windmill central axis, 9 large windmill central axis, 10 motor, 11 turbine B, 12 turbine A, 13 brake device, 14 generator, 15 wind direction wind speed measuring device, 16 clutch, 17 switch, 18 charger, 19 battery, 20 transformer

Claims (2)

  A wind power generator that uses gears to transmit and amplify rotational motion and convert it into the rotational force of a windmill to generate electricity.   A wind power generator that can continuously generate power by changing the gears rotated with a small amount of power into a large rotational motion and always turning the windmill.

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