KR20130141180A - Propeller using power apparatus - Google Patents

Abstract

The present invention relates to a power generation apparatus using a propeller, which can increase power generating efficiency by obtaining required power for power generation from hydraulic power and wind power while moving along the hydraulic and wind power; providing convenience on installation and maintenance of the power generation apparatus; and minimizing damage on nature due to the installation. The power generation apparatus comprises: a supporter installed underwater to expose the upper end on the water surface or ground; a power generating means installed on the upper end of the supporter to be moved along the movement of hydraulic and wind power; a propeller generating a rotating power required for the power generation by receiving the hydraulic and wind power; and a connecting means connecting the power generating means and a propeller, or a propeller and another propeller to finally deliver each rotating power of the propellers to the power generating means. Hence, the propeller is received with the hydraulic and wind power while moving naturally by the hydraulic and wind power for the power generation.

Description

Power plant using propellers {PROPELLER USING POWER APPARATUS}

The present invention relates to a power generator using a propeller, and more particularly, it is possible to perform efficient power generation according to the natural flow of wind and hydropower using wind power using wind power, hydropower using the power of flowing river water or wave tide. To provide an improved power generation apparatus.

In general, many wind turbines and hydroelectric generators for power generation using wind power and hydropower have been developed, and in some cases, they are actually applied to generate power.

In the case of a conventional wind turbine, a foundation is installed on the ground in a windy area, and a prop is projected upward on the foundation. Then, a propeller is mounted on the upper end of the prop so that it can rotate under the force of the wind. In addition, the propeller shaft is equipped with power generation means to convert wind power into electrical energy.

In the case of a hydroelectric generator, the power of a hydroelectric power is used in a location where the flow velocity of a river flows quickly or a large drop, a sea with a high tide, a sea with a large difference between tides, or a beach where a lot of waves or a certain amount of water are continuously pushed. The propeller or turbine is delivered to rotate the shaft of the power generation means to convert the force of the water into electrical energy.

Of course, the size of the wind turbine and the hydroelectric generator may vary depending on the location, purpose, or purpose of installation, and of course, the structure may be slightly variable.

The wind power generator or the hydroelectric generator to which the prior art is applied has the following problems.

Actively responding to irregularly varying wind and hydraulic power, it is difficult to perform power generation to produce fully or continuously electric energy because the wind and hydroelectric generators are stationary and fixed.

Of course, in the case of wind power generation, the propeller may be installed to move along the direction of the wind, but in this case, it is limited to the case where the power generator is small, and in the case of the large size, it is fixed to not change the direction at the top of the prop. Since it is installed in a state of being installed, the head of the propeller is installed in the direction of blowing the wind most strongly.

Therefore, it is practically impossible to continuously obtain wind power and perform continuous power generation without stopping. Due to the characteristics of wind power, it is required to install these devices because they are mostly installed in high and high altitudes rather than lowlands. Done.

In the case of hydraulic power, most of the structures are installed underwater so that they can receive the power of flowing rivers, waves, and tidal currents, which causes considerable difficulties in installing the structures, especially since the flow of water must be blocked or bypassed until the structure is completed. The disadvantage is that the installation is expensive and time-consuming.

Even though the hydroelectric generator is installed by investing a lot of time and money as described above, since the amount of electric energy generated by the hydraulic power is not large, the efficiency is not high, and it is disposed of after some operation. It is happening frequently, and the actual operation is not carried out and it is biased to the exhibition.

As described above, in order to generate power by using wind or hydroelectric power, large structures must be installed in the water or on the ground. Therefore, a change in the features is required. Thus, nature is changed in the process of changing the features and installing the structures. It causes problems that need to be compromised.

Even if the damaged nature is restored to some extent through the finishing treatment, it is frozen in the rainy season as well as the winter season, and after the thawing is repeated, the ground and the structure become vulnerable, which easily causes landslides and flooding and loss of river banks. It can cause property and casualties.

In particular, in the case of using hydropower, since the hydroelectric power is transmitted while the power generator is fixed in the water or on the water surface, foreign matters contaminate the power generator and make power impossible, and unintentional hydraulic power causes the power generator to fail. Due to the damage caused by hitting and damage, there are many problems such as frequent failures and damages, resulting in reduced efficiency due to longer downtime for maintenance than power generation time.

In the present invention, to solve the above problems, the invention is installed on the ground or in the water and the support is exposed to the top or above the ground or water surface, and installed on the top of the support so that it can move along the movement of hydraulic power and wind power The propulsion means to be installed, the propeller to generate the rotational force required to generate the power generation means by receiving hydraulic or wind power, and to connect the power generation means and the propeller or propeller and propeller to deliver the rotational force of each propeller to the power generation means finally. By configuring the connecting means to be able to move naturally by the hydro or wind power so that the propeller receives the hydro or wind power to perform power generation,

It can increase power generation efficiency by receiving power and wind power while moving along hydro or wind power, and can provide easy installation and maintenance of power generation equipment and minimize natural damage caused by installation. It is possible to achieve that purpose.

The present invention provides the ease of installation while minimizing the damage to the feature by allowing the wind or hydraulic power to perform the power generation by receiving the hydraulic or wind power while naturally moving along the movement, can significantly reduce the cost of maintenance after installation It is an invention having various effects, such as making it possible to continuously develop and improve the efficiency of development, thereby making it possible to use the product in a real industry and a home.

1 is an overall configuration diagram showing a power generation apparatus using a propeller to which the technique of the present invention is applied.
Figure 2 is a perspective view of the propeller of the power generation apparatus using a propeller to which the technique of the present invention is applied.
Figure 3 is a schematic view of the connection portion of the power generation apparatus using a propeller applied technology of the present invention.
Figure 4 is a block diagram showing an example of the use of the power generation apparatus using a propeller to which the technique of the present invention is applied.
Figure 5 is a block diagram showing two examples of the use of the power generation apparatus using a propeller to which the technique of the present invention is applied.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram showing a power generation apparatus using a propeller to which the technique of the present invention is applied, FIG. 2 is a perspective view of the propeller of the power generating apparatus using the propeller to which the technique of the present invention is applied, and FIG. 4 is a block diagram showing an example of the connection of the power generator using the propeller applied, Figure 4 is a block diagram showing an example of the use of the power generator using the propeller applied technology of the present invention, Figure 5 is a propeller using the technology of the present invention It demonstrates together as a block diagram which shows two examples of the use of a power generation apparatus.

The power generation apparatus 100 using the propeller to which the technology of the present invention is applied is characterized in that the propeller receives the hydraulic power or the wind power while being naturally moved by the hydraulic power or the wind power to perform the power generation.

The power generation apparatus 100 is provided on the ground or in water and has a support 101 exposed to the upper end above the ground or water surface, the upper end of the support 101 is a conventional power generation capable of generating power by the rotation of the shaft The means 102 are installed.

The power generating means 102 is connected to the propeller 103 and the connecting means 104 for generating a rotational force by receiving hydraulic or wind power so as to perform power generation, the propeller 103 is one or more than one in series By connecting to amplify the force required for power generation to be delivered to the power generation means (102).

The propeller 103 is provided with a propeller body 106 having a cylindrical shape formed of a streamlined body 105 so that the front end and the rear end of the front end and the rear end have a relatively long length compared to the diameter.

The propeller body 106 may be located in the water, but it is preferable to have buoyancy to maintain the state of being floated on the water surface or floated in the air by hydraulic or wind power maintenance and ease of installation It is good because it can provide ease of use.

In the middle of the propeller body 106 is provided with one or more rotary blades 107 so as to rotate the propeller 103 by substantially receiving hydraulic power and wind power, the rotary blade 107 is to rotate the direction In consideration of the propeller body 106 to maintain the spiral in the left or right direction so that it can rotate in only one direction.

At the rear of the propeller body 106, the auxiliary blade 108 is further installed to maintain a stable posture while the propeller body 106 moves along the natural flow of hydraulic or wind power, and the auxiliary wing 108 rotates. To have a relatively small size compared to the wing (107).

The rotary blade 107 and the auxiliary wing 108 forms a braided structure in the vortex to receive the hydraulic power and wind power through more resistance in the process of receiving hydraulic power or wind power, the rotary wing 107 and the auxiliary wing The end of the 108 is preferably formed to have a smooth round 109 so that foreign matter can easily pass through without being caught.

The number of the rotary blades 107 and the auxiliary blades 108 is shown only a few in the drawings of the present invention will be increased to increase the number required to rotate by receiving a lot of hydraulic power and wind power may be sufficient. .

The connecting means 104 connects the power generating means 102 and the propellers 103 to transfer the force of the propellers 103 to the power generating means 102 or to connect the one or more propellers 103 in series to apply the force. As amplified and delivered to the power generating unit 102, a universal joint 110 of a male body is installed.

That is, a power joint 111 is installed in the power generating means 102, and an arm joint 112 is installed at the tip of the propeller 103 directly connected to the power generating means 102, and the power generating means 102 is connected. The propellers 102 are connected to each other by installing the water joint 111 and the arm joint 112 at the rear end of the propeller 103 and the other end of the propeller 103 connected to each other. While generating freely moving independent power is finally configured to deliver a large power required for power generation in amplified state to the power generation unit (102).

In the present invention, the connecting means 104 is described as a universal joint 110, but it will be obvious that it can be adopted if it is easier to connect and can easily transmit the rotational force of the propeller 103 to the power generating means 102. .

In addition, the connecting means 104 may be equipped with a reversal preventing means such as one-way clutch or one-way bearing to prevent the propeller 103 from rotating in the reverse direction without rotating in the intended rotation direction. Of course it will.

Looking at the process of performing power generation by receiving hydraulic power or wind power by the generator 100 using the propeller as described above.

If you want to generate power by using hydropower, the support 101 is installed in a river or the sea with a good flow of water, and the upper end is exposed to the surface of the water, and then the power generating means 102 is placed on the top of the support 101 exposed to the surface of the water. Install.

And, if you want to generate power by using wind power, the power supply means 102 is installed on the top of the support 101 in a state in which the support 101 is installed on the windy ground to maintain the shape protruding to the ground.

Naturally, the power generating means 102 installed on the upper end of the support 101 is rotatably installed so that the power generating means 102 can move along the direction in which the power or wind power moves according to the movement of the hydraulic power or the wind power.

By connecting one or more propellers 103 to the power generating means 102 using the connecting means 104, the propeller 103 is delivered to the power generating means 102 by receiving the force of hydraulic or wind power, The power generation means 102 is capable of producing electric energy by performing power generation based on this force.

In particular, the propeller 103 to which the technique of the present invention is applied is a rotary wing 107 installed in the propeller body 106 while moving along the direction of moving the hydraulic or wind power in the state floating on the surface by buoyancy or in the air floating. And the auxiliary wing 108 receives hydraulic power or wind power to obtain rotational force.

The final propeller 103 is transmitted through the connecting means 104 to the propeller 103 in front of it, and the propeller 103 located at the front end is transmitted to the power generating means 102 to generate power. Since the rotational force of each propeller 103 is transmitted to the power generating means 102 in an amplified state through the connecting means 104, it is more efficient to connect the plurality in series than to connect the propeller 103 singly. You will get.

In addition, the rotary blade 107 and the auxiliary blade 108 installed on the propeller body 106 to rotate in only one direction, and also the means for rotating the connection means 104 in one direction only It is possible to prevent power generation interruption due to reverse rotation that may occur.

The end of the rotary wing 107 and the auxiliary wing 108 is installed in the propeller body 106 round 109 by processing various foreign matters that are blown by wind or floated by water is not caught by resistance and ride naturally It is possible to make uninterrupted development by making it a form that is passed.

The present invention can increase the power generation efficiency by receiving the hydraulic power and wind power while moving along the hydraulic or wind power can increase the power generation efficiency, it can provide the ease of installation and maintenance of the power generator and the natural damage caused by the installation It can have the advantage of minimizing.

100; Generator using propeller
102; Generating means
103; prop
104; Connecting means
106; Propeller body
107; Spinning
108; Auxiliary wing
110; Universal joint

Claims (4)

A support installed on the ground or in water and having an upper end exposed on the ground or above the water;
A power generation means installed at an upper end of the support so as to move along the movement of hydraulic power and wind power;
A propeller that receives hydraulic power or wind power to generate rotational force necessary for power generation;
Connecting means for connecting the power generating means and the propeller or the propeller and the propeller so as to finally transmit the rotational force of each propeller to the power generating means;
Power generator using a propeller characterized in that the propeller receives the hydraulic power or wind power while being naturally moved by the hydraulic power or wind power to perform the power generation. The method of claim 1, further comprising:
The propeller includes: a propeller body having a long length formed in a streamlined shape so that the front and rear ends thereof can reduce the resistance of wind and hydraulic power;
A rotary blade installed to rotate the propeller in one direction by receiving hydraulic power and wind power in the middle of the propeller body;
Power generator using a propeller, characterized in that it comprises an auxiliary wing installed on the rear of the propeller body to maintain a stable posture while moving the propeller body along the flow of hydraulic or wind power. The method of claim 1, further comprising:
The connecting means, by connecting the power generating means and the propeller to transfer the power of the propeller to the power generating means, or by connecting one or more propellers in series to install a universal joint to amplify the force to be transmitted to the power generating means Power generator using a propeller. The method of claim 1, further comprising:
The propeller is a power generator using a propeller, characterized in that configured by connecting one or more in series.

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