KR20090106270A - Slide mode rotation blade the wind power development device which it uses - Google Patents

Abstract

PURPOSE: A wind power generating device using a slidable rotational blade is provided to improve generation efficiency without the limitation of the area size of a rotational blade. CONSTITUTION: A wind power generating device using a slidable rotational blade comprises a rotary shaft, a plurality of sub-posts(5), a generator room(1), a rotational blade(3), and a symmetrical unit(4). The rotary shaft is laid under the ground. The guide groove(22) is formed along the longitudinal direction in the lateral part of the rotary shaft. A pulley(23) is formed at the upper side of the rotary shaft. The rotary shaft and the connection rod are integrally formed. A plurality of sub-posts are laid under the ground to prevent damage to the rotary shaft due to strong wind. A controller(7,7a) is electrically connected to and installed at the generator room. The rotational blade is equipped in the top and the bottom of a tie bar(32). An air curtain(33) of multi-stage is formed at the rotational blade.

Description

Slide mode rotation blade the wind power development device which it uses}

The present invention relates to a wind power generator using a slide-type rotary blade, and more particularly, by forming a folding rotary blade to be slidable up and down on the rotary shaft, if the wind speed is stronger than a certain limit, the area of the rotary blade to receive a wind pressure by folding a portion of the rotary blade It is possible to prevent the damage of the device by adjusting the, and relates to a wind power generator that can produce high-efficiency energy by increasing the power generation efficiency regardless of the wind direction or wind speed.

As is well known, Korea has many mountainous regions, terrains adjacent to the ocean, and the wind direction changes frequently from region to region, even though it is in a periodic climate zone affected by monsoon winds. It is necessary to have a structure capable of performing continuous and stable energy conversion irrespective of the situation.

In general, the wind power generator using the power of the wind has been put into practical use, but most of the propeller-type generators installed with the propeller-type windmills in the high-rise wind tower is mainly used.

As shown in FIG. 1, the conventional wind power generator 10 is installed at a seaside or a mountain where wind speeds are constantly blowing during the year, and a high tower strut 15 is fixedly installed. The propeller 20 is composed of a generator 25 rotatably provided at the upper end of the strut 15.

As described above, when the propeller 20 provided on the upper end of the support 15 is rotated by the wind power generator 10, power is generated by the generator 25, such a wind power generator 10. Will produce power.

However, in the conventional method as described above, since a high tower must be constructed and a generator and a propeller are installed on the top, it is expensive to maintain, difficult to maintain, and it is difficult to protect the wind power generator from strong winds, and generates power in the structure of the propeller. In order to make the wind speed at least 5-6m / sec, the minimum efficiency can be expected, and the propeller's ability to maintain the optimum direction according to the changing wind direction is insufficient. Can not expect the development effect.

In addition, since its center of gravity is difficult to install in offshore structures such as ships, problems such as damage to wind towers or propellers during typhoons or gusts can occur.

Therefore, the present invention has been devised to solve the above problems by forming the vertical rotary blade to be folded up and down the slide, so that the rotary blade is folded to receive a certain amount of wind pressure even during a typhoon or a gust, so that the rotary shaft or rotary blade It is possible to prevent damage, and it is possible to increase the power generation efficiency without limiting the size of the rotating blade without any burdens such as expenses or materials, and to install and repair the power generation chamber by laying the ground or underground as needed. An object of the present invention is to provide a wind power generator using a slide-type rotary blade to facilitate workability.

The present invention for achieving the above object is a rotating shaft is formed on the support, and a plurality of rotary blades are installed on the rotary shaft to slide up and down in multiple stages, but the plurality of ventilation so as to vary the resistance of the wind on the rotary blade It is formed, the folding means is connected to the rotary blade is formed on the rotary shaft is formed to slide the rotary blade up and down, and the power generation chamber is installed on the lower surface of the rotary shaft is provided with a generator for generating energy by the rotation of the rotary shaft It is to provide a wind power generator using a sliding rotary blade characterized in that.

Thus, the present invention is installed so that the upper and lower slide type rotary blade is folded up and down by the folding means, the power generating chamber is provided on the lower end of the rotating shaft to generate electrical energy by the rotation of the rotating shaft in the power generating chamber The controller that controls the generator and each device is installed so that the rotary blades can collect the wind as much as possible to maximize the energy generation efficiency and power generation efficiency, and the rotary blades can be folded according to the strength of the wind speed. Of course, since all devices are provided on the ground, it is easy to replace or repair, thereby maximizing workability.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing a wind turbine according to the present invention, Figure 3 is an enlarged view "A" part of Figure 2, Figure 4 is a front view showing a wind turbine according to the invention, Figure 5 and 6 is an exemplary view showing a state in which the rotary blades of the wind power generator according to the present invention is lowered, FIG. 7 is a plan view illustrating a rotation state of the rotary blades of the wind power generator according to the present invention, and FIG. Schematic example showing a connection state of the rotary blade to the rotary shaft of another wind power generator according to the present invention.

The present invention is a wind power generator for generating electrical energy using wind power,

A power generation room (1) installed on the ground or buried underground;

A rotating shaft (2) buried in the ground through the power generating chamber (1);

A rotary blade (3) installed on the rotary shaft (2) and slid vertically;

Folding means (4) for folding and rotating the rotary blade (3) up and down on the rotary shaft (2);

It consists of.

A plurality of auxiliary pillars 5 are buried in the ground to prevent damage of the rotating shaft 2 during strong winds, and the connecting rod 21 is integrally formed on one side of the upper portion of the rotating shaft 2. Is formed in the guide shaft 22 is formed in the longitudinal direction on the side of the rotary shaft (2).

At this time, it is preferable that the pulley 23 is formed in the connecting rod 21 so that the wire 42 of the folding means 4 described below can be smoothly turned.

In addition, a lightning rod 6 is formed at the upper end of the rotating shaft 2 so as to prevent a failure of the device by lightning.

The rotating blade 3 has a plurality of guide rings 31 are formed on the outer peripheral surface of the rotating shaft 2 to be slidable up and down along the rotating shaft 2, and horizontally at regular intervals on the guide ring 31. A plurality of support rods 32 are formed, and the multi-stage windscreen 33 is formed on each support rod 32 up and down.

Each windscreen 33 is preferably formed of a high elastic high strength material such as high strength synthetic vinyl paper or cloth.

In addition, a plurality of through-holes 33a are formed in each of the windscreens 33, and a close contact plate to open and close the through-holes 33a according to the wind resistance on the front of the windscreen around the through-holes 33a. 34) is formed.

At this time, the close contact plate 34 is to be fixed to the rotary blade (3) by high-frequency bonding or sewn so that only part of the surface so that the through hole (33a) can be opened when the wind blows to the rear of the rotary blade (3).

The folding means 4 has a drive unit 41 is formed on the rotating shaft 2, the support rod 32 and the wire 42 is connected to the drive unit 41, one side of the wire 42 is a drive unit It is connected to the 41 and the other side is fixed to the support rod 32 while wrapping the pulley 23 of the connecting rod 21 formed on the rotary shaft (2).

An operating wheel 43 is formed in the driving unit 41 to manually operate the driving unit 41 or a controller 7a is formed in the driving unit 41 so as to automatically control the driving unit 41. It is done.

In addition, the folding means 4 is formed with a wind sensor 44 for sensing the strength of the wind is electrically connected to the controller (7a) is grounded.

The power generation chamber 1 is electrically connected to the generator 11 for generating electrical energy by the rotation of the rotary shaft 2 and the controller 7 for controlling each device.

Reference numeral 8 in the accompanying drawings is an opening and closing door that opens and closes the power generation chamber 1.

Looking at the operating state of the subject innovation made of the above configuration as follows.

Operate the operating wheel 43 or the controller 7a of the folding means 4 to slide the rotary blade 3 upward along the rotary shaft 2 to lift the windscreen 33 of the rotary blade 3. When unfolded, the wind hits the windscreen 33, whereby the windscreen 33 is turned along the direction of the wind.

As the rotary blade 3 rotates as described above, the rotary shaft 2 also rotates together, and electrical energy is generated from the generator 11 of the power generation chamber 1 by the rotation of the rotary shaft 2. .

At this time, the contact plate (34) formed on the front of the wind screen 33 that receives the wind when the rotary blade (3) is turned back receives the wind from the front surface of the close contact plate 34 is the wind screen 33 The close contact plate 34 formed to be wider than the width of the through hole 33a while being in close contact with the front is to close the through hole 33a.

Thus, a large amount of wind hits the windscreen 33 and the wind power becomes the strongest, so that the rotational force of the rotary blade 3 is increased, thereby increasing the rotational force of the rotary shaft 2 at the same time. As a result, a large amount of electrical energy is generated from the generator 11.

In addition, when the windscreen 33 is rotated while the wind hits the rear of the windscreen 33, while the wind is in contact with the close contact plate 34 by the wind to push the close contact plate 34 to the through hole (33a) The wind will escape through.

Therefore, when the wind hits the windscreen 33 on the surface where the close plate 34 is formed, the wind power rises. On the contrary, when the wind strikes the windscreen 33 on the opposite side on which the close plate 34 is formed, the air is vented. Wind through (33a) can minimize the resistance of the wind, so that it is possible to prevent the reduction of the rotational force of the rotary blade (3).

On the other hand, if a typhoon or a strong gust is blown in a state in which the rotary blade 3 is spread upward on the rotary shaft 2, the folding blade 4 is lowered to operate only the proper amount of wind by operating the folding means 4. By sliding the windscreen 33 will be folded.

At this time, when the operator wants to operate the folding means 4 manually, the driving unit 41 rotates when the operator turns the operating wheel 43, and the connecting rod 21 of the driving unit 41 rotates. The wire 42 spanning the pulley 23 rotates, and as the wire 42 rotates, the supporting rod 32 of the rotating blade 3 slides downward along the guide groove 22 of the rotation shaft 2. It will be done.

In addition, when a predetermined or more wind strength is detected by the wind sensor 44, the controller 7a detects the wind power and sends a driving signal to the driver 41, and the driver 41 controls the controller 7a. At the same time as the drive is received by the signal, the wire 42 is rotated at the same time as the rotary blade (3) slides downward along the guide groove 22 of the rotary shaft 2, the windscreen 33 is the rotary shaft (2) ) Will be folded at the bottom.

On the contrary, when unfolding the rotary blade 3 folded under the rotary shaft 2, a signal is sent to the operating wheel 43 or the controller 7a to drive the drive unit 41, and the drive unit 41 drives the drive unit 41. As the wire 42 rotates, the support rod 32 is guided upwardly along the guide groove 22 so that the rotary blade 3 is unfolded.

In addition, since the rotary blade 3 can slide up and down from the rotary shaft 2, when the rotary blade 3, such as the windscreen 33 or the contact plate 34, is torn or broken, a worker breaks down from the ground. The maintenance work can be performed conveniently.

As described above, the rotary blade 3 is slid up and down from the rotary shaft 2 in accordance with the operation of the folding means 4 to be folded so that the wind of the rotary blade 3 does not damage the windscreen 33. The membrane 33 is spread on the rotating shaft 2 to generate energy by wind power, and when wind force is applied to damage the windscreen 33, the windscreen 33 is folded by an appropriate portion. 33) to prevent damage.

In addition, since the generator 11 and the power generation chamber 1 in which the various devices are installed are buried in the ground or underground, work such as maintenance or replacement can be easily performed to increase the convenience of the work.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view showing a wind power generator according to the prior art.

Figure 2 is a perspective view of a wind power generator according to the present invention.

3 is an enlarged view of a portion “A” of FIG. 1.

4 is a front view illustrating a wind power generator according to the present invention.

5 is an exemplary view showing a state in which the rotary blades of the wind power generator according to the present invention are half-down and folded.

Figure 6 is an exemplary view showing a state in which all the rotary blades of the wind turbine generator according to the invention is lowered.

Figure 7 is a plan view showing a rotating state of the rotary blades of the wind turbine generator according to the present invention.

Figure 8 is a schematic illustration showing the connection of the rotary blades to the rotary shaft of another wind power generator according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: power generation room 2: rotating shaft

3: rotating blade 4: folding means

5: auxiliary pillar 6: lightning rod

(7,7a): Controller 8: Opening and closing door

11: generator 21: connecting rod

22: guide groove 23: pulley

31: guide ring 32: support rod

33: windscreen 33a: through-hole

34: contact plate 41: drive unit

42: wire 43: operation wheel

44: wind sensor

Claims (4)

A rotary shaft installed in the ground or underground, and having a guide groove formed in a longitudinal direction at a side portion thereof, and a connecting rod having a pulley formed at an upper side thereof integrally formed thereon; A plurality of auxiliary pillars buried in the ground to prevent shaking or damage of the rotating shaft during strong winds on the upper rotating shaft; A power generation room which is installed on the ground or buried underground in connection with the rotation shaft, and a generator which generates electric energy by rotation of the rotation shaft and a controller which controls each device is electrically connected and installed; Is installed on the rotary shaft and slides up and down, a plurality of guide rings are formed to be slidable up and down along the rotary shaft on the outer peripheral surface of the rotary shaft, a plurality of support rods are formed horizontally at regular intervals on the guide ring, Rotating blades each having a plurality of windscreens formed on the support rods; A driving unit is formed on the rotating shaft, and one side of the driving unit is connected to the driving unit, and the other is connected to a wire fixed to the supporting rod while surrounding the pulley to slide the rotary blade up and down according to the driving of the wire. Folding means to be folded; Wind power generator using a sliding rotary blade, characterized in that consisting of. The method of claim 1, The upper end of the rotary shaft is a wind turbine generator using a slide type rotary blade, characterized in that a lightning rod is formed to prevent the failure of the device by lightning. The method of claim 1, The windshield is formed with a plurality of through-holes, the front of the windshield around the through-hole is formed in the close contact plate so as to open and close the opening in accordance with the resistance of the wind, the close contact plate when the wind blows back to the rotating blade Wind turbines using a slide-type rotary blade, characterized in that only a part of the surface is fixed to the rotary blade so that the opening can be opened. The method of claim 1, The drive unit is formed with an operation wheel to manually operate the drive unit or a controller is formed to automatically control the drive unit to the drive unit, the controller by folding the rotary blades as necessary according to the strength of the wind A wind power generator using a sliding rotary blade, characterized in that the wind power sensor for sensing the strength of the wind is electrically connected and grounded to adjust the area to collect the wind to prevent damage to the device.

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