Horizontal and vertical axis wind generator

Abstract

An embodiment of Horizontal and Vertical Axis Wind Generator (HVAWG) concept with the rotating wings, the gearbox, repulsive magnets attached to the wings and the wind tunnel cover with the same pole magnets or repulsive magnets is described. This feature allows for a number of improvements over the current state of the art including damage protection and the ability to remain operational during high wind conditions. In addition, the invention described here is scalable for cars, boats, motor cycles, camping cars, homes, offices, and power plants.

Claims

1. A horizontal and vertical axis wind generator comprising: a horizontal axis turbine, the horizontal axis turbine comprising first wings, a gearbox, and a first horizontal axle coupled to the gearbox, wherein the first wings are attached to the first horizontal axle; a horizontal axis fan, the horizontal axis fan comprising second wings, first repulsive magnets and a second horizontal axle coupled to the second wings, wherein the repulsive magnets are attached to the second wings, and the second horizontal axle is driven by the first horizontal axle via the gearbox; and a vertical axis turbine, the vertical axis turbine comprising a vertical axle, third wings, and second repulsive magnets; and a wind tunnel cover, the wind tunnel cover defining a tunnel; wherein the second wings of the horizontal axis fan drive the vertical axle of the vertical axis turbine via a fluid connection in the tunnel and a repulsive force between the first repulsive magnets and the second repulsive magnets.

2. The horizontal and vertical axis wind generator of claim 1, wherein the third wings are attached to the vertical axle.

3. The horizontal and vertical axis wind generator of claim 1, wherein said second repulsive magnets are attached between the third wings of the vertical axis turbine.

4. The horizontal and vertical axis wind generator of claim 1, wherein the second wings of the horizontal axis fan send wind energy to the third wings of the vertical axis turbine through the wind tunnel cover.

5. The horizontal and vertical axis wind generator of claim 1, wherein a repulsive force between the second repulsive magnets attached to the third wings and the first repulsive magnets in the wind tunnel cover is between two same north or two same south magnetic poles.

6. The horizontal and vertical axis wind generator of claim 1, wherein said the vertical axle is connected to a generator motor.

7. The horizontal and vertical axis wind generator of claim 1, wherein the vertical axle is rotating and sends wind energy to a generator motor.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Various embodiments of the invention are disclosed in the following detailed description and accompanying drawings.

(2) FIG. 1 is a side view of a horizontal and vertical axis wind generator in a tunnel according to the present invention.

(3) FIG. 2 is a top view (bird's eye view) of the horizontal and vertical axis wind generator to describe the relationship between the first and second wings and the horizontal axis with the gearbox.

(4) FIG. 3 is a front view of the horizontal and vertical axis wind generator to describe the relationship between the second wings with repulsive magnets and the horizontal axis.

(5) FIG. 4 is a cross-sectional view showing the second wings with magnets and the wind tunnel cover of the horizontal and vertical axis wind generator according to the present invention.

(6) FIG. 5 is a cross-sectional view showing the second wings and the wind tunnel cover of the vertical axis wind generator according to the present invention.

(7) FIG. 6 is a sectional view showing the generation motor and the wind tunnel cover according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(8) The detailed description of the operation of the horizontal and vertical axis wind generator with vanes and magnets is explained in this section with reference to the accompanying drawings. According to FIG. 1, the horizontal and vertical axis wind generator according to the present invention, the generator motor (1) is connected to the vertical axle (10), the third wings (3) with repulsive magnets (2) are connected to the vertical axle (10) and the second wings (4) with repulsive magnets (9) are connected to the horizontal axle (5) and the first wings (6) are also connected to the horizontal axle (5) in a tunnel. The gearbox (8) changes revolutions per minute (RPM) of the first wings (6) and send the wind energy to the second wings (4). The gearbox (8) is depicted in detail on the right. The second wings (4) blow winds through the wind tunnel cover to the third wings (3). The third wings (3) rotate the vertical axle (10) and the axle (10) rotates the generator motor (1).

(9) Referring to FIG. 2, the horizontal and vertical axis wind generator according to the present invention operates as follows. The third wings (6) are always aligned in a straight line in the direction of the wind. Thus, if one assumes that the direction of the wind is the X-axis, the wings (6) are always aligned in the direction of the X axis and rotates around the axle (5). The wind blows to the wings (6) and wings (6) aligns in the direction of the wind and the wind energy from the first wings is passed to the second wings through the gearbox (8). The sectional view of the gearbox (8) is shown on the right side. When the wind blows the second wings (4) generate and pass the wind energy to the third wings through the wind tunnel cover (7). The repulsive magnets (9) in the second wings (4) and the repulsive magnets (2) in the third wings (3) is added to the wind energy using the magnetic energy of the same magnetic poles. For example, each magnet has a north pole and a south pole (named after the earth's magnetic north and south poles), and the north end of one magnet will stick to the south end of another magnet. Pushing two repulsive magnets together decreases the distance between them. This results in further increase in the repulsive force. Thus, if two north poles or two south poles are placed near each other in the second wings (2) and in the third wings (3), the magnets in the second wings (2) and the third wings (3) will push each other wings with the repulsive magnets away and would give additional push-away or repulsive force or energy to the existing wind energy.

(10) Referring to FIG. 3, the first wings (6) are mounted to the connecting horizontal axle (5).

(11) According to FIG. 4, the repulsive magnets (9) are attached to the second wings (4) and the wind tunnel cover (7) is mounted to the next of the second wings (4).

(12) According to FIG. 5, the wind tunnel cover (7) is mounted to the next of the second wings (4).

(13) According to FIG. 6, the generation motor (1) is covered by the wind tunnel cover (7) according to the present invention.