WO2016126064A2

WO2016126064A2 - Automatically opening/closing wind power generation device

Info

Publication number: WO2016126064A2
Application number: PCT/KR2016/001076
Authority: WO
Inventors: 남정호
Original assignee: 남정호
Priority date: 2015-02-03
Filing date: 2016-02-01
Publication date: 2016-08-11
Also published as: WO2016126064A3

Abstract

Disclosed is an automatically opening/closing wind power generation device wherein upper and lower rotating plates are identically fabricated and installed about a center fixed shaft; an excessive rotation prevention shaft and an automatically opening/closing machine are fabricated and vertically fixed in the space formed therebetween; when an opening/closing plate, which is attached to the automatically opening/closing machine, is pushed backwards by a force generated by wind that collides therewith, no matter what direction the wind comes from, the opening/closing plate collides with the excessive rotation prevention shaft, which is installed on the rear side, and is closed; when a circular rotating body rotates by means of a force obtained from wind, the excessive rotation prevention shaft changes its position and is positioned in front of the opening/closing plate; as a result, the opening/closing plate opens backwards from the excessive rotation prevention shaft and is automatically closed by the force of wind; the opening/closing plate repeats the process of opening and closing, and the circular rotating body rotates accordingly; a multipolar low-speed generator is installed on the bottom surface thereof, and has a cylindrical shape; the generator has a central hollow portion, and multiple coils are fabricated as stators using a copper wire, arranged circularly at the center of the generator, and fixed; rotors are fabricated with the same specification, magnetic force, and number as those of the stators and are installed on both surfaces of the stators such that N-S poles face each other; when the stators (coils) are made to pass, a magnetic field is generated, thereby generating electricity; when a horizontal wing plate support table and a variable table are fabricated and installed on the rear surface of the circular rotating body so as to play on a center support table, the same rotate 360° about the circular rotating body; a horizontal wing plate, which is installed with an inclination, is pushed towards the circular rotating body, when a strong wind blows, and contacts a control friction plate, which is installed on the bottom surface of a lower rotating plate, by means of a control plate, which is installed on the horizontal wing plate support table; and, as a result, a control function is activated, thereby preventing rotation at an excessive rate and avoiding self-damage.

Description

[Specifications

[Name of invention]

Automatic switch wind power generator

Technical Field

The present invention relates to an auto-opening wind power generator, an automatic switchgear having a plurality of anti-rotation shafts and planar open / close boards attached between the center fixed shafts while making and installing the upper and lower rotary plates identically. The automatic switchgear opening and closing plate which receives the wind power from the wind blows in any direction is closed backward, and the automatic switchgear opening and closing plate which does not receive the wind and forms the circular rotating body that does not resist the rotation and is multi-pole on the bottom ․ The low speed generator is manufactured and attached to rotate in the same direction to produce electricity at low wind speeds. The horizontal wing plate is installed obliquely on the rear side of the circular rotor. When the wind blows strongly, the horizontal wing plate rises upward and pushes toward the circular rotor. Control friction installed on the bottom of the lower rotor using a control panel fixed to the horizontal wing support The present invention relates to an auto-opening wind turbine that is designed to improve the power generation efficiency while preventing over-rotation of the circular rotor by performing control operation by contacting the plate. [Background]

In general, the wind is a phenomenon in which air moves due to the difference in density of air, and it is trying to produce alternative energy in preparation for fossil fuel depletion by using vertical and horizontal wings using wind.

Many vertical small wind turbines have been developed for this purpose. It is a reality that does not achieve good results.

In addition, the vertical small wind power generators are trying to increase the transfer yield by using a plurality of vertical blades, but since the vertical blades are fixedly installed, some of the vertical blades generate wind friction and wind friction force. When the vertical small wind power is rotated by the vertical wing on the opposite side is fixed in the form of wind friction without the friction of the wind, there is a problem that does not weaken the rotational force and increase the amount of power generated by a lot of resistance while rotating.

Vertical small wind power generators can increase power generation efficiency when a generator capable of generating electricity at low wind speeds has been developed and commercialized, but currently there is no electricity generator with high electricity production efficiency.

Vertical wind turbines are not applied to the vertical wind turbines because the wind turbines are excessively rotated and the wind turbines are destroyed when the wind turbine blows a lot. It is true.

[Detailed Description of the Invention]

[Technical problem]

The present invention is to solve the problems described above to fix the center fixed axis vertically, and the upper and lower rotating plate the same ^" , ^" ^: between the installation of a multi-¾ rotation prevention axis and a fixed shaft of the same size and length, ， Upper rotation prevention shaft is installed vertically on the upper inner support plate. If the fixed shaft bar is the same, the lower bearing is fixed. Manufacture and install the tube on one side of the installation, attach and open the switchboard to form an automatic switch S and close the door by the force hitting the switchboard in any direction. Formed by receiving circular rotating body to increase the rotational force

Multi-pole, low-speed generator that generates electricity at low wind speed is cylindrical, the center is drilled, the lower part of the generator is fixed to the plane, the generator exterior and the inner exterior have concave-convex shape, and the generator upper rotating plate rotates in a plane and the generator When the stator is manufactured and installed in the core and the rotors are installed on the both sides with the same magnetic force and the number of the same, and the same rotation in the same direction generates a high magnetic field and generates a lot of electricity.

It is designed to be able to rotate 360 ^ο by horizontally installing a horizontal wing attached with a wind vane on the top of the horizontal wing support installed on the rear side of the circular rotor, and to rotate 360 ^ο . When the wind blows strongly, the horizontal wing rises upward and pushes toward the circular rotating body, so that it strikes the control friction plate installed on the bottom of the lower rotating plate to perform brake and operation, preventing over-rotation of the circular rotating body and preventing damage to itself. It is configured to prevent 【Technical solution】

Rotate the wind directly to achieve the above objectives. _: Summer ^: € hyeonghui full rotation and the rotary plate and is affixed to the bottom horizontal edge provided on the circular cylindrical multipolar time, the low speed power generator unit and for increasing the core ^zone, the same rotate in the same direction by the force of the entire rotation The semi-circular control panel is installed to fix the horizontal wing plate at the top of the opening support inclined and to brake the protruding portion to the horizontal wing support.

Multiple automatic switchgear with over-rotating shaft and opening / closing plate between upper and lower rotating plates are manufactured in the same size and number, installed vertically, and open and close to receive wind force in any direction. The plate closes backwards and the open / close board which is not subjected to the wind forms a circular rotating body that does not resist opening rotation. The open / close board closes, and the opening and closing process is automatically performed. It is configured to generate a strong rotational force and rotational speed when rotating,

The generator is cylindrical in shape, the center is drilled, the lower part of the generator is fixed to the plane, the outer and inner shell of the generator has a concave-convex shape, and the upper rotor plate rotates in a plane, and a number of stators (copper coils) are produced in the generator core , ¹ ᅳ ¹ type fixed tube and ^Π type friction tube are made into a circle, inserted into U type fixing tube, and fixed by inserting Π type friction tube on the upper part, and multiple rotors (magnets) on both sides of the stator have the same size and magnetic force. It is manufactured as a multi-pole, low-speed generator that generates electricity by fixing NS bearings to the inner and outer rotor tubes facing each other and fixing the lower bearings and installing the upper bearings in the same direction.

The horizontal wing plate is inclined at the upper part of the horizontal wing plate support on the rear side of the circular rotor, and when the wind blows strongly, the horizontal wing plate is raised and pushed toward the circular rotor. The semicircular control panel installed to protrude on the horizontal wing plate support by using the pushing force is rubbed against the control friction plate which is circularly attached to the bottom of the lower rotating plate to obtain a control effect and to prevent over-rotation of the entire round and prevent its own damage. The effect of the invention

Since the automatic switching wind turbine of the present invention is installed vertically, the installation space of the power generation facility takes less, so there is an advantage of easily securing the site.

Auto-opening wind power generator has the advantage that it does not require a separate fuel by being operated by the wind.

Since the automatic opening and closing wind power generator is driven by the wind, it does not generate noise, does not harm the surrounding natural environment, and does not generate waste. The auto-opening wind power generator has the advantage of having a power generation zone that generates power even at low wind speeds by rotating in the same direction and speed as multi-pole and low-speed generators by receiving wind force.

The auto-opening wind power generator has the advantage of having a power generation zone that generates power even at low wind speeds by rotating in the same direction and speed as multi-pole and low-speed generators by receiving wind force.

[Brief Description of Drawings]

1 is a schematic perspective structure diagram of a vertical existing small wind power generator.

2 is a schematic top plan view of the automatic switching wind turbine according to the present invention. Figure 3 is a schematic side cross-sectional configuration diagram of the automatic switching wind power generator according to the present invention. 4 is a schematic perspective configuration diagram of an automatic switching wind power generator according to the present invention.

5 is a schematic rotational view showing the operation of the opening and closing plate of the automatic switchgear-wind generator according to the present invention.

Figure 6 is a schematic plan view of a multi-pole, low speed generator of the automatic switching wind power generator according to the present invention.

Figure 7 is a schematic cross-sectional view of a multi-pole, low speed generator of the automatic switching wind power generator according to the present invention.

Figure 8 is a schematic perspective view of the horizontal wing support of the automatic switching wind turbine according to the present invention.

[Specific contents to carry out invention]

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Embodiments of the present invention will be described in detail with reference to the accompanying drawings, and repeated descriptions thereof will be omitted. Embodiments of the present invention are provided to more safely explain the present invention to those skilled in the art. Therefore, the shape and size of the elements in the drawings can of course be expanded for more clear explanation.

The operation of each part composed of the circular rotating body 1 will be described in detail. The center fixing shaft 12 is vertically fixed to the upper part of the reinforcement support 11 and the lower and upper bearings 13 are vertically fixed to the outer surface. To make sure that the gap The upper and lower bearings 13 are attached to the outer surface, and the upper inner support plate 14 is formed in a circular shape, and the connection holes 14-1 are drilled in the center, and a plurality of coupling holes 14-2 are formed along the same surface. The inner and outer rotary plates 15 having the same spacing on the bar side, and the same number of holes as the coupling holes 14-2 punched on the outer surface of the inner support plate 14, Drill and arrange (15-1),

If the lower and upper connecting plates 16 are manufactured in the same standard and fixed to the lower and upper inner fingerboard 14 and the outer rotating plate 15, the space generated between the connecting tubes is generated. It is configured to prevent buoyancy caused by air friction and to receive less resistance while rotating in the same space. It is formed by the upper rotating plate 16-1X20-1, and the lower inner side supporting plate joint 14-1 and lower The upper surface of the upper bearing (13) is joined to rotate together, and the over-rotation shaft (18) and the fixed shaft (21-1) are manufactured to the same size and length. The inner support plate coupler 14-2 is vertically coupled with a bolt (not shown), and the lower and upper bearings 19-2 are inserted and fixed to the outer side of the fixed shaft 21-1. The rotating tube (19-3) is made into a width that can be easily rotated and fixed. On one side, the opening and closing plate (19-4) was made and attached to the automatic rotating switch (19) with the same width as the length that hits the anti-rotation shaft (18). When the opening and closing pipe (19-4) is coupled to the coupler (15-1) so as to be located in front of the over-rotation prevention shaft (18), the circular rotation to maintain the gap between the lower and upper rotary plate (16-1X20-1) and to prevent deformation Formed in the whole (1) and configured to rotate in the same direction and speed

The lower anti-rotation shaft 18 installed on the lower inner support plate 14 is attached to the automatic switch 19. Located at the rear of the switchboard (19-4) to prevent it from being pushed backwards, when the circular rotor (1) is rotated using the force directly hit by the wind, an over-rotation prevention shaft (18) is installed at the front and the switchboard ( 19-4) are spaced apart and open backward to rotate along the circular rotor (1) to receive less resistance.

The opening and closing plate 19-4, which receives the wind directly, has a high rotational force and a high rotational speed even at low wind speeds, and is closed by the wind like the automatic switch 19, and is opened to shift the lower rotating tube while rotating the circular rotor 1. (16-1) Attach the control friction tube 21 made in a circular shape to the outside of the bottom (not shown) to rotate together.

Multi-pole, low-speed generator (22) (generator) Cylindrical, the generator core is drilled, the generator shell (22-1) and the inner shell (22-2) of the generator are uneven, the bottom of the generator

(22-3) is fixed in a plane and the generator upper rotating plate (22-4) has a shape consisting of a tower-shaped plane

The lower part of the generator (22-3) is flat and fixed with screw holes (unmarked) so that the uneven shape of the generator sheath (22-1) and the inner side exterior (22-2) of the generator can be easily removed from the generator (22-3). The generator upper rotating plate (22-4) (indicated by the upper rotary tube) is a tower () (planar part) plane and the generator housing (22-1) (exterior). ) And the shape of the generator 22 exterior spaced apart from the generator inner and outer shell 22-2 (inner outer shell marking)

The lower part of the generator (22-3) has copper wires with odd number of coils It is composed of a plurality of stators (22-13) and arranged in a circle, and the U-shaped fixing pipe (22-14) is made circular by using insulation material in the core of the generator (22-3). 3) and pins (coils) and pins (coils) (22-13) made by inserting them into the u-type fixing pipe (22-14) and fixed them. the upper coil used in the insulating material Needle-type by making the same ¹ g gojeonggwan shaped friction tube (22-15) and (22-14) and fixed not to be moved been inserted into the upper coil

While manufacturing the inner rotor plate 22-5 in a circle around the stator 22-13 installed in the generator 22, the lower bearings 22-7 are formed in the same circle, and the lower part of the generator 22-3. The inner rotor (magnet) 22-6 with the same size, shape, and magnetic force was attached to the center of the inner rotor plate 22-5 (not marked) and installed to rotate in the same direction. in the upper inner rotating keyboard 22-5 by extruding to be produced by ¹ and installed so as to rotate in contact with the g-shaped friction plate (22-15) joined to the bottom of the generator upper rotating plate (22-4), the upper bearing (22-8) To rotate in the same direction and speed

Focusing on the stator (22-13) installed inside the generator (22). While manufacturing the outer rotor plate (22-9), the lower bearing (22-11) is formed in the same shape on the lower surface of the generator (22-3). Attached (not shown), same size, shape and magnetic force, same as inner rotor (magnet) (22-6) The outer rotor (magnet) 22-10 is attached to the center of the outer rotor 22-2, while the inner rotor 22-6 and the NS pole face each other (not shown). It is installed to rotate in the same direction and speed as (22-5X22-9), and the upper bearing (22-12) is made to protrude on the upper side of the outer rotor plate (22-9) to contact with the ^Π type friction plate (22-15). It was installed to rotate and joined to the bottom of the generator upper rotary plate (22-4) to rotate in the same direction and speed.

The generator upper rotating plate (22-4) is flat and has a tower () shape on both sides so as not to be separated from the side exterior (22-2) of the generator.

(22-16) is perforated and the inner rotor (22-5) and outer rotor (22-9) are fixed on both sides of the bottom to rotate at the same speed in the same direction.

As described above, the generator 22 is made of the same size, magnetic force, and number of rotors 22-6 (22 ᅳ 10) suitable for the form of rotating on both sides about the stator 22-13. The NS poles face each other. When attached to the outer rotor plate (22-5X22-9) (not shown) and rotated in the same direction, the magnetic field is generated while passing through the stator (22-13), and electricity is produced at low speeds, thereby increasing the power generation area. Multi-pole with low speed generator

In the same direction by combining the connector (22-16) perforated on the upper surface of the generator upper rotating plate (22-4) and the generator connecting pin (20) fixedly protruding from the bottom of the rotating rotor (16-1). To rotate at a speed

The horizontal wing plate 23 is installed on the rear side of the circular rotating agent 1 and is located on the outer surface of the heavy support plate 11. The fixed bearings (23-1) and variable bearings (23-7) are installed under the upper and lower phases, and the horizontal wing plate support (23) and the connecting variable band (23-6) are made of a ladder using flat plates. and,

Fixing bearings (23-1) installed on the outer surface of the center support (11) are installed to protrude on both sides to fix the joint flow to one side of the horizontal wing plate support (23).

When the horizontal wing plate (23-3) is made on the top surface of the produced horizontal wing plate support (23) and is inclined, and the wind blows strongly, the horizontal wing plate (23-3) is pushed upward and pushed toward the circular rotor (1). It is configured to operate as a brake by the control panel (23-8) installed in the middle of the horizontal wing plate support (23).

When the wind direction plate 23-4 is manufactured and attached to the upper surface of the horizontal wing plate 23-3, the direction of the wind is displayed, and the horizontal wing pipe support 23 and the connecting variable band 23-6 are coupled to each other. It is installed to rotate 360 ° in the same direction

The variable bar bearing (23-7) installed on the outer surface of the center support (11) is fixed to the variable bar fixing pin (23-5) to protrude on both sides. Holes were drilled and attached to move left-right at the variable pin fixing pins (23-5), and they were installed at the opposite ends to move together in the horizontal wing plate support (23).

The control panel (23-8) is fixedly installed to protrude in the middle of the connecting variable bar (23-6) and the horizontal wing plate support (23), which are installed to be fluid, and manufactured by attaching it to the bottom of the lower rotating plate (16-1). It is installed to friction with the set control friction plate (brake friction plate) (21). If the wind blows strongly, the direction of the wind vane (23-4) indicates the direction of the wind, and the horizontal wing plate (23-3) installed at an angle rises upward and is pushed toward the circular rotor (1) by the force of the wind. ) The control panel (23-9) installed in the middle part is rubbing against the control friction plate (21) attached to the bottom of the lower rotating plate (16-1) to control and prevent over-rotation of the circular rotating body (1) and to prevent damage to itself. It has an effect, and it is characterized by being configured to rotate 360 ° from the rear side with the central rotor 1 as the core, regardless of the wind blowing in any direction.

In the above description with reference to the accompanying drawings, the present invention has been described with reference to specific shapes and directions, but the present invention can be variously modified and changed by the parties, and such changes and modifications are included in the scope of the present invention. Should be interpreted.

[Explanation of code]

1 ： Circular rotor 11 ： Center support

12 ： Increasing fixed shaft 13 ： Lower, upper bearing

14 ： Lower, upper inner support plate 14-1 ： joint

14--2: Coupling fitting 15: Lower, upper outer rotating plate

15- — 1 ： Coupling fitting 16 ： Lower, upper connecting plate

16--1: Lower rotating plate 18: Over-rotation shaft

19 ： Automatic switch 19-1 ： Fixed shaft

19--2: Lower and upper bearing 19-3: Cylindrical rotary tube -4 ： Switching board 20 ： Generator and connecting pin (screw type) -1 ： Upper rotating plate 21 ： Control friction tube (brake friction plate) ： Multi-pole, low speed generator 22-1 ： Generator exterior

-2 ： Generator inner exterior 22-3 ： Generator bottom

-4 ： Generator upper rotating plate 22-5 ： Inside rotor plate

-6 ： Inner rotor (magnet) 22-7 ： Lower bearing

-8 ： Upper bearing 22-9 ： Outer rotor

-10 ： Outer rotor (magnet) 22-11 ： Lower bearing

-12 ： Upper bearing 22-13 ： Stator -14 ： Type fixed tube 22-15 ： ¹ Type ¹ friction tube

-16 ： Connector 23 ： Horizontal wing plate support

-1: fixed bearing 23-2: support pin

-3 ： Horizontal wing plate 23-4 ： Wind direction plate

-5 Variable band fixing pin 23-6 ： Connection variable band

-7 ： Variable belt bearing 23-8 ： Control panel (brake)

Claims

[Patent Claims]

[Claim 1]

The center support shaft is manufactured and fixed vertically while the center fixing shaft is manufactured and installed at the upper part.The bar and upper bearings are fixed by separate welding at regular intervals on the bar side, and the lower and upper inner support plates on the bar side are of the same size. The upper and outer rotary plates are enlarged to make a certain distance toward the bar by drilling the joints to be joined to the lower and upper bearings in the center and drilling the lower and upper joining holes along the bar surface. To make the same size, while drilling the coupler with the same number as the inner support plate coupler, and make a plurality of connecting plates made with the same standard, and fix the outer surface of the upper inner support plate and the inner side of the outer rotary plate (screw type, not shown). It is formed by the upper rotating plate, and the space generated between each connecting plate is caused by air friction generated while rotating. Using the splice to prevent buoyancy, the lower and upper bearings are bonded together with adhesive to rotate together, and the upper and lower rotation plates are manufactured with the same size, length and number as the anti-rotation shaft and the fixed shaft. The over-rotation prevention shaft is vertically coupled to the coupling hole drilled in the inner support pipe, and it is fixed to the lower and upper bearing center on the outer surface of the fixed shaft made in the coupling hole drilled in the upper outer rotating plate. Edo-cylinder rotating tube is made of the same number as the fixed shaft with easy width to rotate, and it is inserted and fixed vertically. If it is made of glue and attached to the front of the anti-rotation shaft with adhesive, it is formed with automatic switchgear and fixed with bolts. While maintaining and preventing deformation, attach a circular control friction plate to the outside of the bottom of the lower rotating tube to form a circular rotating body rotating together, manufacture and install a multi-pole low speed generator on the bottom of the lower rotating plate, and install it inclined to the rear of the circular rotating body. Automatic opening wind turbine generator configured to prevent the overspeed rotation of the circular rotor and prevent its own breakdown by controlling the control panel installed on the horizontal wing plate support by rubbing against the control friction plate installed on the bottom of the lower rotary tube.

[Claim 2]

The method of claim 1

The anti-rotation shaft installed on the inner support plate is located on the rear of the switchboard attached to the automatic switch, so that the wind is blown in any direction and the contact plate is closed. When rotating, the position of the anti-rotation shaft changes and is located in the front of the switchboard, and when it is rotated without receiving any resistance from the rear, it is closed by receiving the wind directly on the switchgear of the automatic switchgear. Automatic opening and closing wind power generator having a feature configured to increase the

[Claim 3]

The method of claim 1 The multi-pole low speed generator fixed to the bottom of the lower rotary tube with a connecting pin has a center hole, the inner and outer sides have irregularities, and the lower side of the generator is fixed flat, and the outer and inner sides of the generator are detachable from the lower side of the generator. It is fixed with screw holes (not shown) to make it easy, and the upper rotating plate of the generator is a tower (^) shaped plane, perforated with a plurality of connectors on the upper surface, and is configured to rotate apart from the generator and the inner casing. It has the appearance to lower the heat generated during power generation and protect the equipment by using a large area of irregularities of the U-shaped fixed tube. ) And a plurality of odd numbered coils can be inserted into the ^U- shaped tube with copper wires. Insert it into each coil and connect it with a connecting line to discharge it to the outside of the generator.Insulate the stator by inserting it on the top of the coil to make it the same ^Π type friction tube as the ^U type fixing tube using insulation material on the coil. ， Increase the stator, and make the outer rotor plate in the shape of circular shape according to the form and specifications.The same size and magnetic force to be attached to the center, the same number of inner and outer rotor tubes Manufacture the rotor (magnet) with the Ν and S poles facing each other and attach it to the center of the outer rotor tube. If the upper bearing is protruded on the upper surface, it is made to rotate in contact with each of the ^Π type friction pipes. If it is rotated in the same direction by maintaining a distance from the stator, the magnetic field is generated while passing through the stator (coil), so that electricity is generated.The inner and outer upper bearings are combined with the bottom of the upper rotating plate (not shown) to form irregularities. Generator casing and inner casing tower

( ^Ω ) Shape When the motor is spaced apart from the upper rotating plate, the power generation zone with the same number of revolutions is wider to form a multi-pole, low-speed generator configured to generate electricity even if the direction of rotation changes. When the inner and outer wind turbines of the automatic switchgear wind turbine are characterized by the same number, and rotated apart from the tower-shaped upper rotary tube, the power generation zone with the same number of rotations is wide and if the direction of rotation is changed when fired like a circular rotor, Automatically open and close wind power generator characterized by forming a multi-pole low speed generator configured to generate electricity, the same rotational direction and number of revolutions

[Claim 4]

The method of claim 1

Separate the fixed bearing and the variable bearing by vertical welding on the outer surface of the core center support and fix it by welding, and attach the fixing pin by welding on both sides like the fixed bearing bar, and weld the horizontal wing plate support in the form of a ladder using two plates. Manufacture and fix the horizontal wing plate on the upper side by welding to be inclined so that one side is facing downward, and make the wind vane at the center of the upper surface of the horizontal wing plate by welding and fix the horizontal wing plate. A part of the support is perforated with a variable port to flow with the variable band, and a semicircular control panel is manufactured and welded to the part to protrude in the direction of the circular rotating body, and fixed by welding. While the variable bar bearing pins are fixed by welding on both sides of the variable bar bearing bar, and the variable bar connecting the horizontal wing plate supports is fixed by welding in the form of a ladder using two flat plates. Drill a rectangular hole (see Fig. 8) horizontally in the center of one side and insert it so that it does not escape even if it moves left-right, right-left from the variable pin, and one side is perforated on the horizontal wing plate support. The bolts are used to move the variable bar to the sphere. The semicircular control panel, which is fixed by welding when it is pushed upwards and pushed in the direction of the circular rotor, is operated by the control function by rubbing the control friction plate that is manufactured and fixed to the bottom of the lower rotor plate to prevent over-rotation of the circular rotor and damage itself. The wind vane installed on the top of the horizontal vane plate indicates the direction of wind blowing and the variable vane combined with the 360 ° horizontal vane support on the circular rotor moves in the same direction. Auto-opening wind turbine, characterized in that the low speed generator is configured to rotate in the same direction, speed