KR20140014302A - Variable Aberration Blade Device for Current Generation - Google Patents

Abstract

The present invention relates to variable current blade equipment for current generation which generates electricity by using ocean currents and water flowing in a river. A control device of a variable turbine blade for current generation by the present invention: is equipped with an operation device which is able to rotate a cam device by including the cam device capable of rotating the turbine blade in a rotation shaft for rotating the turbine blade in the turbine blade which rotates by ocean currents or flowing river water; rotates the turbine blade in a direction which can receive the most power of ocean currents or flowing river water by having the largest cross section of the turbine blade at a part which is able to receive the most power of ocean currents or flowing river water; and maximizes the rotation efficiency of a turbine by minimizing the resistance of ocean currents or flowing river water by exposing only a shaft of the turbine blade to the ocean currents or the flowing river water by rotating the large surface of a blade at 90 degrees in order to minimize the resistance of the ocean currents or the flowing river water when the turbine blade rotates and moves to the opposite part. [Reference numerals] (AA,BB,CC,DD,EE,FF,) Ocean currents

Description

Variable aberration blade device for current generation

The present invention relates to an electric current generation variable aberration blade device for generating electric power by generating power by current in the current, and generating strong power by minimizing the strong resistance of the current.

This relates not only to known tidal power generation facilities using current energy, but also to power generation equipment for generating power from natural energy, which is constantly occurring in the entire ocean and in rivers or in the wind.

At present, the most well-known power generation using sea water in the world is tidal power using tidal tides, followed by wave power generation.

Korea is also under construction in Sihwa Lake, and it is a relatively promising field.

The disadvantage is that there is a time when power does not develop when the water is taken up, and a lot of money is required to make a dam, and there is a disadvantage of environmental destruction.

Next, there is wave power generation, which is a form of power that uses sea water. This is a method using sea water by moving a turbine in water without building a dam during tidal power generation.

In the estuary, water flows into and out of the river depending on the tides. At the bottom of the river, a wind turbine like a windmill is placed on the bottom of the river.

In order to increase the efficiency of power generation in this way, it is essential to make a dam, it is expensive, and there are disadvantages of environmental destruction, which leads to many difficulties in development.

These currents are generally stationary flow systems in large areas, the production of which is crucial for the thrust force (drift current), internal pressure forces (gradient current), Earth rotation (coriolis force), and the seabed and beach topography.

The most important currents, for example,

North and South Equatorial Currents, Currosio Currents, East Australian Currents, Brazilian Currents, Angular Currents, North Pacific Currents, North Atlantic Currents, Western Wind, California Currents, Humboldt Currents, Canary Currents, Benguela Currents, Western Australian Currents, Equatorial Backwaters, Alaska Currents, Norwegian Currents, West Spittsburgh Currents, East Greenland Currents, Labrador Currents, Il-Seoul Currents, Oyashio Currents, and Falkland Currents.

In addition to the ocean's known surface flows, the Atlantic and Pacific Oceans have direct equatorial reservoirs (up to 2.5 m / sec flow) that flow directly eastward on the equator below the equatorial tropics that are oriented westward at a depth of about 100 m (or more). have.

Unlike the tides, the current flows from the equator to the poles, and the Kurushio current that flows in front of Japan and the Gulf of Mexico that flows through the east coast of the United States are well-known representative currents.In Korea, the current between Jeju and Jeonnam flows year-round, and between Busan and Tamado. These currents are not fast but the energy of these currents is enormous, and countries are striving to develop technologies as technological alternatives to solve the climate warming caused by carbon dioxide in addition to the energy crisis caused by oil depletion.

The present invention inserts and secures the aberration blade 40 to the rotating shaft 10 to produce stronger energy by using the flow of the tidal current or river water of the sea, and the flow direction of the tidal current or river water of the sea As a result, the surface of the aberration blade wing 80 having the largest end area is exposed, and in the opposite direction, only the aberration blade axis 70 switches in the direction of sea currents, currents, and flowing rivers. Minimized to get more power to produce electricity.

According to the present invention, a plurality of aberration blades 40 are vertically attached to the rotation shaft 10, and the cam 20 formed on the fixed shaft 30 exerts a linear motion on the lower surface of the aberration blades. When the guide 50 formed inside the rotating shaft along the guide groove 60 formed in the part converts the linear motion into the rotational motion and transmits the aberration blade 40 to the aberration blade 40, the aberration blade 40 is 90 ° according to the transmitted rotational motion. While rotating, adjust the aberration blade 40 to the direction where the aberration blade wing 80 is widest to receive the most force of the tidal current or the flowing river, and when it is moved to the opposite point, the aberration blade Only the shaft 70 is to minimize the resistance of the tidal current or flowing river to get more force and will work even if the direction of seawater flow changes. The rotational motion of the aberration blade 40 includes a cam 20 formed in the fixed shaft 30, a guide 50 formed in the rotary shaft 10, and a guide groove 60 formed at the end of the aberration blade 40. ) Is performed by the correlation work of.

That is, the aberration blade 40 is moved up and down linearly by the cam 20 formed on the fixed shaft 30, and this linear movement is performed by the guide 50 in the rotary shaft 10 at the end of the aberration blade shaft 70. The linear motion is transferred to the rotational motion of the aberration blade 40 while moving in the guide groove 60 formed in the aberration blade. As a result of the rotational motion, the cross-sectional area of the aberration blade wing 80 is positioned to be the widest, Rotate the aberration blade 40 in the direction to receive the most force of the tidal current, the current, and the flowing river, and when moved to the opposite point, only the aberration blade axis 70 is changed to the direction of the sea current or the flowing river. Will be done.

Current generation can provide more energy than wind generators of the same size, with 800 times higher density of water than wind, making it more efficient than anything else, and generating a large number of horizontal or longitudinal If you connect the aberrations, you will get more power.In the sea, where many tidal currents are severely installed, several aberrations are installed vertically or horizontally by using floating materials at a suitable distance. Is to produce electricity

In general, the aberration is connected to a plurality of aberrations in the direction of water flow by using a barge in the river to use only the upper portion of the flowing water, so that a lot of power cannot be obtained due to the resistance of the flowing water compared to the amount of flowing water.

Current generation can provide more energy than wind generators of the same size, since the water density is 800 times higher than the wind.

The variable aberration blades for current generation can be applied to all energy sources, such as current, wind, river, tidal current.

According to the present invention, the aberration blades 40 are fixed to the rotating shaft 10 to produce stronger power by using a tidal current of the sea or the flow of the river, and produce aberration in the direction of the flow of the tidal current or the river. The surface of the blade wing 80 having the largest cross section is exposed and in the opposite direction, only the axis of the aberration blade 40 is diverted to the direction of the tidal current or the flowing river, thereby minimizing the resistance of the tidal current or the river. The efficiency can be maximized.

The variable aberration blades for current generation according to the present invention and the power generation equipment including the same can be installed floating or submerged in the flowing river, tidal current, current, and do not need the construction of a large-scale dam to install them, the next generation power generation that combines environmental conservation It is in form.

As described above, according to the present invention, the aberration blade has a large area where the aberration blade collides with the tidal current, the current, and the wind in the direction of flowing the aberration (1) with flowing river water or tidal current, and thus, more fluid collides to obtain a force. It will contribute to the first-class society as a device that generates electricity by the power of rotating water wheels by minimizing the resistance of water in the impact of tidal currents, currents and wind power.

In addition, the variable aberration blades for the current generation and the power generation equipment including the same can be installed floating or submerged in the flowing river, tidal current, current, it is not necessary to construct a large-scale dam for installing them, and also many environmental conservation Can contribute.

1 is a perspective view of a variable aberration blade for current generation
2 is a front view of a rotating shaft of a variable aberration blade for ocean current generation
Fig. 3 Operation of Variable Aberration Blade for Current Generation
4 shows a fixed shaft with a cam installed
5 is a front view showing the rotational movement of the variable aberration blade for ocean current generation by the camshaft
6 is a front view showing a guide groove formed at the end of the variable aberration blade for ocean current generation
7 is a front view showing the guide formed inside the rotating shaft
8 is a front view showing the currents applied to the variable aberration blades for current generation
9 is a view showing the currents applied to the variable aberration blade according to the rotation angle
10 is a view showing a variable aberration blade for current generation

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Detailed description of the drawings, FIG. 1 shows a perspective view of a variable aberration blade device for current generation, showing changes in the surface area of the variable aberration blade for current generation reaching the current. .

That is, the aberration blade 40 on the upper surface based on the fixed shaft 30 receives the most current force in the widest surface area and moves to the position of the lower surface based on the fixed shaft 30. The aberration blade 40 is rotated by 90 ° to receive the least resistance of the current to the narrowest surface can maximize the power generation efficiency.

2 is a view showing a front view of the rotating shaft 10 of the variable aberration blade device for ocean current generation, the rotating shaft 10 is combined with the fixed shaft to perform a rotational movement and transmits the rotational energy to the power plant.

That is, the guide 50 is formed in the rotation shaft 10, and the guide converts the linear motion applied to the aberration blade shaft 70 by the cam of the fixed shaft into a rotational motion along the guide hole 60 to make the aberration blade. It rotates 90 °.

3 is a view showing the operating state of the variable aberration blade device for current generation, the aberration blade 40 is rotated 90 ° by the interaction of the rotary shaft 10, the guide 50, the guide hole 60, again Indicates the operating state to return to the original position.

4 is a view showing the fixed shaft 30 in which the cam 20 is installed, the fixed shaft 30 does not rotate, serves to fix the rotating shaft including the aberration blade 40, and the cam therein (20) is made, and a linear movement is performed in which the end of the aberration blade 40 moves from the A1 point of the cam 20 to the A2 point.

5 is a front view showing the rotational motion of the variable aberration blade device for current generation by the camshaft, showing the interaction between the cam 20 and the guide hole 60 formed in the fixed shaft 30.

That is, the guide moves along the guide hole 60 corresponding to the A2 moving distance at the A1 point of the cam 20, wherein the guide and the rotating body are integrally formed, and the guide hole 60 and the aberration blade 40 are The guide is rotated along the guide hole 60 by an integrally formed A1 moving distance from the A1 point of the cam 20, and the rotary motion rotates the aberration blade 40 formed integrally with the guide hole 60. It is to be made.

Cam angle, the length of the guide hole, the shaft diameter of the aberration blade 40 should be installed organically adjusted to each other so that the rotation angle of the aberration blade 40 can be 90 °.

6 is a front view showing a guide groove formed at the end of the variable aberration blade shaft 70 for current generation, the length of the guide hole 60 is a distance from B1 to B2, and the aberration blade shaft 70 is circular. Since the guide 50 is inserted into the guide hole 60 is operated so that the rotational movement.

7 is a front view showing a guide formed in the rotating shaft, the guide 50 is fixed to the rotating shaft is formed is inserted into the guide hole 60 is a rotational movement from the point B1 to the point B2 of the guide hole 60. . At this time, the aberration blade 40 is rotated by 90 ° by the rotational movement. On the contrary, when the axis of rotation is located opposite to the uneven portion of the cam, the aberration blade 40 is returned to one of B1 and B2 of the guide hole 60. Return to position.

FIG. 8 is a front view showing the currents applied to the variable aberration blade device for current generation, and rotates the aberration blades 40 by 90 ° so that the most currents such as C1, C2, C3, C4, C5, etc. Receiving, the other side of the aberration blade 40 is only the axis of the aberration blade 40 is to receive the force of the current C3, the current can minimize the resistance of the current.

9 is a front view showing the current flow applied to the variable aberration blade device according to the rotation angle, and shows the operating state of the variable aberration blade and the resistance state of the current according to the rotation angle.

10 is a view showing the variable aberration blade 40 for the current generation is composed of aberration blade axis 70, aberration blade wing 80, aberration blade wing 80 is a circular or the most able to receive the force of the current Polygonal designed and constructed aberration blade axis 70 and aberration blade blades 80 are integrally constructed.

Rotary shaft 10, cam 20, fixed shaft 30, aberration blade 40, guide 50,
Guide groove 60, aberration blade shaft 70, aberration blade wings 80

Claims (4)

In the aberration of the power generation apparatus using the flowing river, algae, currents, a plurality of aberration blades 40 are inserted and attached to the rotating shaft 10 at a predetermined angle, and the cam 20 formed on the fixed shaft 30 has a rotating shaft ( When a linear motion is applied to the lower surface of the aberration blade shaft 70 due to the rotational movement of 10), the guide 50 formed inside the rotation shaft moves along the guide groove 60 formed at the end of the aberration blade shaft 70. When the aberration blade 40 formed integrally with the lower surface guide groove 60 rotates 90 °, the aberration blade 40 rotated has a cross-sectional area of the aberration blade wing 80 in the direction of the current of the sea or the flowing river. Even when exposed to algae or flowing river water, only the aberration blade axis 70, which is widest to be widest to receive the most power of the sea algae or flowing river water, and has a small area when moved to the opposite point. The aberration blade 40 rotates in-situ to minimize the resistance of tidal currents, currents, and flowing rivers to obtain greater force on the entire axis of rotation connected to the generator, resulting in 90 ° angular rotation to maximize power generation efficiency. Variable aberration blade device for current generation, characterized in that the aberration blades as possible. The aberration blade shaft 70 according to claim 1, wherein a guide 50 is formed therein, and the guide 50 is subjected to a linear motion applied to an end of the aberration blade shaft 70 by a cam 20 of a fixed shaft. Variable current for generation of electric current, characterized in that the guide 50, which serves to rotate the aberration blade 40 to rotate by 90 ° along the guide hole 60 formed in the lower end of the integrally formed inside Rotation axis of the aberration blade unit. The end of the aberration blade shaft 70 according to claim 1, which does not rotate by itself, serves to fix the rotation shaft 10 including the aberration blade 40, and forms a cam 20 in a portion thereof. A fixed shaft of the variable aberration blade device for current generation, characterized in that the cam formed to act as a circumferential rotational movement along the guide hole formed in the aberration blade 40 to enable the vertical movement. The guide groove 60 of claim 1, wherein the guide groove 60 is formed at an end portion, wherein the length of the guide groove 60 is equal to the movement distance of the uneven portion of the cam 20, and the guide 50 is formed integrally with the rotation shaft 10. ) Is inserted into the guide hole 60 integrally formed with the aberration blade 40 body, and the guide 50 is rotated along the cylindrical circumference of the aberration blade axis 70. 60) and the aberration blade wing 80, which is designed to receive the most of the guide hole 60, the aberration blade shaft 70, and the current of the flowing current, such as circular or polygonal, characterized in that the integral composition. Aberration blades of variable aberration blade units for current generation.

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