KR101598800B1 - Generator - Google Patents

Abstract

The present invention provides a power generator. The power generator of the present invention comprises: a supporting unit; a turbine unit installed on the supporting unit to have blades which are independently rotated by a forced wind; and, a power-generating unit installed on the supporting unit to generate power by receiving the rotation power from the turbine unit.

Description

Generator {GENERATOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generating device, and more particularly, to a power generating device capable of generating and generating infinite energy using a tidal force and a wind force.

In general, for a maritime platform, a large amount of power is required depending on its function. And the majority of this power is already covered by using fossil fuels. As a result, the costs incurred are increasing, and transporting the fossil fuels from the land is cumbersome and costly.

Therefore, in order to solve such a problem, many proposals have been made to produce electric power by using algae, temperature difference, and the like.

In the case of marine power generation, for example, a tidal power generator that uses tidal power as a source of power to generate electricity using rising and falling motion of the sea surface, and a thermal power generation system that converts thermal energy into mechanical energy using the temperature difference between hot water and deep- There is an ocean temperature difference power generation device and a bird power generation device which uses the kinetic energy of seawater to generate a water turbine generator at a place where the flow of seawater is fast.

These tidal power generators produce electricity by operating water turbine generators using water levels when tide or ebb occurs.

However, there is a problem that the tidal power generation equipment can not produce electricity using the tide or ebb tidal current, and the tidal power generation equipment is in the test stage.

In addition, normal power generation uses electric power using nuclear power, gas, petroleum, coal, solar power, wind power, and tidal power.

However, due to the pollution that occurs at the time of development, there is a problem that damages the climate and the natural environment enormously.

A prior art related to the present invention is Korean Patent Laid-Open Publication No. 10-2011-0035361 (Apr.

An object of the present invention is to provide a power generating device capable of generating and generating infinite energy using a tidal force and a wind force.

In a preferred aspect, the present invention provides a power generation apparatus.

The power generation device includes a support portion; A turbine portion mounted on the support portion and having blades independently rotated through a forced air blow; And a power generation unit installed on the support unit and generating power by receiving rotational force from the turbine unit.

Preferably, the turbine units are connected in series so as to be interlocked with each other.

The turbine unit includes a main body having a hollow outer tube; A first rotating part disposed inside the inner tube in the main body part and having both ends rotatably supported at both ends of the main body part and having a screw-shaped first blade rotated by the air to be flowed; A second rotating part installed inside the main body part, the second rotating part being formed on the outer periphery of the inner tube and provided with a screw-shaped second blade rotated by the moving air; And a blower installed in the main body to forcibly supply compressed air to the first blade and the second blade to forcibly rotate the first and second blades.

It is preferable that the inner tube is formed such that the diameter gradually decreases or becomes larger along the other end of the one end of the main body.

The first blade is preferably formed to have a vertical width inversely proportional to the diameter of the inner tube.

Projecting lines protruding outward are formed on the outer periphery of both ends of the main body part,

It is preferable that the projecting line is fitted in a stopper provided at the upper end of the support portion to fix the posture of the body portion.

And the first blades and the second blades are formed so that the inclination directions of the first blades and the second blades are opposite to each other.

The blowing unit includes a first blowing unit installed at one end of the main body and forcing forced blowing by the second blades and a second blowing unit installed at the other end of the main unit for forced blowing with the first blades Respectively,

Wherein the main body includes a guide cover,

Wherein the guide cover includes: a first guide cover which is bent at an outer periphery of the one end of the main body portion and guides the forced air blow generated from the first blown portion toward the second blades; And a second guide cover for guiding forced airflow generated from the second blow-out portion toward the first blades.

The air blowing unit includes a compressed air supply unit for supplying compressed air, and a plurality of units for forcibly rotating the first and second blades by jetting the compressed air supplied from the compressed air supply unit to the first and second blades, Preferably, a blower is provided.

In another aspect, the power generation apparatus of the present invention includes: a support portion having a plurality of support legs extending downwardly at a lower edge portion thereof and supported by the sea floor; A turbine section fixed to the upper end of the support section and having a rotation section rotatable in both directions according to the tide of the seawater or the ebb flow; And a pair of generators fixed on the device support to be positioned on both sides of the turbine section.

A pair of latching members is provided on both sides of the upper end of the support portion, the width of which gradually decreases along the upper side,

Wherein a pair of fitting grooves for fitting the pair of engaging members is formed on both side surfaces of the turbine portion,

And a plurality of regulating rods for connecting the pair of latching members to each other and regulating an upper end of the turbine portion are further provided above the turbine portion.

The rotary unit includes a rotary shaft having a predetermined length and provided on the turbine unit so as to be rotatable at both ends thereof and a rotary shaft disposed on the outer circumference of the rotary shaft and formed in a screw shape along the other end of the rotary shaft from one end of the rotary shaft at different positions And a plurality of support members extending from an outer periphery of the rotary shaft and supporting the plurality of blades along a longitudinal direction of the rotary shaft,

The plurality of blades are preferably spaced apart from the outer periphery of the rotary shaft.

At both ends of the turbine section, guide blades for guiding the flow of the seawater are formed, and the guide blades are formed to have a curvature so as to form an opposite shape to the shape of the blades.

A pair of seawater inflow amount control plates disposed on both ends of the turbine section so as to overlap with each other for controlling the inflow amount of the seawater and having a plurality of holes,

It is preferable that the pair of seawater inflow amount control plates flow along the crossing direction and the hole size can be adjusted.

It is preferable that a network for preventing the inflow of foreign matter is installed at both ends of the turbine portion.

INDUSTRIAL APPLICABILITY The present invention has the effect of generating and generating infinite energy using a tidal force and a wind force.

INDUSTRIAL APPLICABILITY The present invention has an effect of obtaining surplus electric power that can produce electric power without generating pollution and without damaging the natural environment.

1 is a perspective view showing a configuration of a power generation apparatus of the present invention.
2 is a perspective view showing a turbine section according to the present invention.
FIG. 3A is an exploded perspective view showing a first example of a turbine section according to the present invention. FIG.
3B is an exploded perspective view showing a second example of the turbine section according to the present invention.
3C is an exploded perspective view showing a second example of the turbine section according to the present invention.
Figure 4 is a front view showing the turbine section of Figure 3a.
5A is a view showing a first example in which a guide cover is installed in a turbine section according to the present invention.
5B is a view showing a second example in which a guide cover is installed in a turbine section according to the present invention.
5c is a view showing a third example in which a guide cover is installed in a turbine section according to the present invention.
6 is a perspective view showing a second embodiment of the power generating apparatus of the present invention.
7 is a perspective view showing a support according to the present invention.
8 is a perspective view showing a turbine section according to the present invention.
9 is a perspective view showing a rotating part according to the present invention.
10 is a view showing a seawater inflow amount control plate according to the present invention.

Hereinafter, a power generation device of the present invention will be described with reference to the accompanying drawings.

The power generation apparatus of the present invention is a power generation apparatus using wind or tidal force, and these will be explained through respective embodiments.

First Embodiment

In the first embodiment of the present invention, it is a device capable of producing infinite energy due to forced air blowing.

2 is a perspective view showing a turbine unit according to the present invention, FIG. 3 is an exploded perspective view showing a turbine unit according to the present invention, and FIG. 4 is a perspective view of a turbine according to the present invention, FIG. 5 is a view showing an example in which a guide cover is installed in a turbine section according to the present invention. FIG.

Referring to FIG. 1, the power generation apparatus of the present invention includes a support portion 100, a turbine portion 200, and a power generation portion 300.

The supporting portion 100 may be formed in a plate shape.

The generator unit 300, the centrifugal plate 330, the booster unit 340, and the turbine unit 200 are arranged in a row in this order on the support unit 100.

The configuration of the turbine section 200 according to the present invention will be described with reference to Figs. 2 to 4. Fig.

The turbine unit 200 includes a main body 210, first and second rotary units 220 and 230, and a blower unit 240.

The body portion 210 is formed in a cylindrical shape.

Protruding lines 211 protruding outward and reinforcing the main body 210 are formed on the outer periphery of both ends of the main body 210 and on the outer periphery between both ends.

A stopper 110 is provided at an upper end of the support part 100.

The stopper 110 is formed such that the projecting line 211 has a cross section. Preferably, the stopper 110 is formed as a groove corresponding to the shape of the projecting line 211.

Although not shown in the drawing, the stopper 110 may be provided with an electromagnet and may be magnetically fixed to a protruding line formed of a metal.

The electromagnet is magnetized according to whether an external current is supplied.

Rotary supports 214 for rotatably supporting both ends of a rotation shaft 222, which will be described later, are disposed at both ends of the main body 210.

Each of the rotary supports 214 is fixed through a plurality of support rods 213 extending from the outer circumference of both ends of the body 210 to the center.

Each of the rotating supports 214 is formed in a disk shape.

Here, the first rotation part 220 is disposed in the hollow of the main body part 210.

The first rotating part 220 includes an inner tube 221 having a cylindrical length, a rotating body 223 disposed in the inner tube 221, A rotary shaft 222 rotatably supported on the rotary support 214 and a first blade 224 formed on the outer periphery of the rotary body 223 in a screw shape.

The first blades 224 are separated from the inner circumference of the inner tube 221 by a predetermined distance.

The second rotary part 230 is formed on the outer circumference of the inner tube 221.

The second rotating part 230 includes a second blade 231.

The second blade 231 is formed in a screw shape along the inner tube 221.

The second blades 231 are separated from the inner circumference of the main body 210 by a predetermined distance.

In addition, the blowing unit 240 according to the present invention includes the first and second blowing units 241 and 242.

Each of the first and second air-rich portions 241 and 242 includes a plurality of unit blowers for generating forced air.

The first blowing section 241 is installed at one end of the main body 210 and the second blowing section 242 is installed at the other end of the main body section 242.

The unit blowers of the first blowing unit 241 are positioned between the support rods 213 formed at one end of the main body 210 and transmit the forced blowing air to the second blades 231 at an oblique angle.

The unit blowers of the second blowing unit 242 are positioned between the support rods 213 formed at the other end of the main body 210 and transmit the forced blowing air to the first blades 224 at an angle.

3B is an exploded perspective view showing a second example of the turbine section according to the present invention.

Referring to FIG. 3B, the aforementioned rotating body 223 'is disposed in the hollow of the inner tube 221'.
The first blade 224 'is formed in the shape of a screw along the circumference of the rotating body 223' along the rotating body 223 '.
The second blade 231 'is formed in a screw shape along the inner tube 221'.
In addition, the first blade 224 'may be formed integrally on the outer surface and the inner surface of the hollow inner tube 221'.

delete

3C is an exploded perspective view showing a second example of the turbine section according to the present invention.

Referring to FIG. 3C, the rotating body 223 'may be formed so that the diameter gradually decreases from one end of the body 210 along the other end.

In addition, the diameter of the inner tube 221 'is formed such that the diameter gradually increases from one end of the body 210 along the other end.

In this case, the diameter of the inner tube 221 'may be larger than the diameter of the inner tube 221' at one end of the main body 210 So that the diameter gradually decreases along the other end.

Here, the above-described second blade 231 'is deleted in the rotating body 223'.
Therefore, the fluid to be blown has an effect that the flow rate can be increased because the gap gradually narrows along one end at the other end of the rotating body 223 'and the inner tube 221'.
5A is a view showing a first example in which a guide cover is installed in a turbine section according to the present invention.

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Referring to FIG. 5A, the main body 210 includes a guide cover 212.

The guide cover 212 has a first guide cover 212a provided at one end of the main body 210 and a second guide cover 212b provided at the other end of the main body 210. [

The first guide cover 212a is formed by bending the airflow generated by the rotation of the first blade 224 to the second blade 231 side.

The second guide cover 212b is formed by bending the airflow generated by the rotation of the second blade 231 into the first blade 224 side.

In the present invention, the first blade 224 and the second blade 231 are formed to have opposite shapes.

On the other hand, a control box 310 is installed in the power generator 300.

A control unit 331 for controlling the driving of the original plate 330 is installed on the supporting unit 100.

The rotation axis 222 of the turbine unit 200 extends and is connected to the speed reducer, the centrifugal plate 330, and the power generation unit 300 to transmit the rotational force.

The centrifugal plate 330 is the same as that of the generator 300 and has the advantage of improving the power of the turbine unit 200 and reducing the load on the generator by generating centrifugal force.

Here, the rotating body 221 and the inner tube 223 are formed in a cylindrical shape with one end and the other end having the same diameter.

5B is a view showing a second example in which a guide cover is installed in a turbine section according to the present invention.

5B shows that the diameter of the rotating body 223 'is gradually increased from one end to the other end, and the diameter of the inner tube 221' is gradually formed along the other end at one end.

However, the installation directions of the first and second blades 224 and 231 are opposite to each other, and the directions of rotation are opposite to each other.

Although not shown in the drawing, when the guide cover is not provided, the diameter of the rotating body 223 'gradually decreases from one end to the other end, and the diameter of the inner tube 221' gradually increases along the other end .

However, the first and second blades 224 and 231 are formed so as to follow the same direction, and the guide cover is removed at this time.

5C is a view showing a fourth example in which a guide cover is installed in a turbine section according to the present invention.

5C shows that the first blade 224 'is formed integrally with the inner tube so as to protrude from the outer surface and the inner surface of the inner tube 221.

On the other hand, although not shown in the drawings, the turbine sections according to the present invention may be installed at a plurality of intervals so as to line up on the support sections.

The rotary shafts of each of the plurality of turbine sections are coupled to each other.

For example, a coupling member having a hexagonal groove may be formed at one end of the turbine rotary shaft, and a hexagonal projection may be formed at the other end of the turbine shaft to be fixed to the hexagonal groove of the coupling member.

Therefore, when the end portions of the respective rotary shafts are engaged, the protrusions of the hexagonal crimp can be fixedly inserted and fixed in the hexagonal groove.

Second Embodiment

In the case of the second embodiment of the present invention, it is an apparatus capable of producing infinite energy through a tidal force.

FIG. 6 is a perspective view showing a second embodiment of the power generating apparatus of the present invention, FIG. 7 is a perspective view showing a support according to the present invention, FIG. 8 is a perspective view showing a turbine unit according to the present invention, FIG. 10 is a view showing a seawater inflow amount control plate according to the present invention. FIG.

6 to 9, the power generation apparatus of the present invention is largely composed of a support portion 400, a turbine portion 500, and a pair of power generation portions 600.

The support portion 400 has a plurality of support legs 420 extending downward from the bottom edge portion and supported by the sea floor.

At both upper ends of the support portion 400, a pair of latching members 410 whose width is gradually narrowed along the upward direction are provided.
Holes (H) are formed at both side edges of the upper end of the support part (400).

The turbine part 500 is detachably attached to the upper end of the support part 400 and has a rotation part 510 rotatable in both directions according to the tide or ebb flow of the seawater.

On both sides of the turbine portion 500, a pair of fitting grooves 501 in which the pair of engaging members 410 are fitted is formed.

A plurality of regulating rods 502 are further provided above the turbine unit 500 and connected to the pair of engaging members 410 to regulate the upper end of the turbine unit 500.

The rotating unit 510 includes a cylindrical rotating body 510a, a rotating shaft 511 formed at both ends of the rotating shaft 510a and installed at the turbine unit 500 so that both ends thereof are rotatable, A plurality of blades 512 disposed on the outer periphery of the rotating body 510a and formed in a screw shape along the other end of the rotating body 510a from one end of the rotating body 510a at different positions, And a plurality of support members 513 extending from the outer periphery and supporting the plurality of blades 512 along the longitudinal direction of the rotation shaft.

The plurality of blades 512 may be spaced apart from the outer periphery of the rotating body 510a.

Guide blades 520 for guiding the flow of the seawater are formed at both ends of the turbine part 500. The guide blades 520 are formed so as to have a curvature that is opposite to the shape of the blade 512 Respectively.

The guiding blades 520 serve to guide the seawater into the blades 512 with ease.

The pair of power generating units 600 are fixed on the support unit 400 so as to be positioned on both sides of the turbine unit 500.

The power generation apparatus according to the present invention is arranged on the seabed so that the rotating portion can be rotated through the pair of generators in accordance with the flow direction of seawater during tide and ebbing.

10, a pair of seawater inflow amount control plates 530 and 540 are installed on both ends of the turbine part 500, and are arranged to overlap with each other in order to control the inflow amount of the seawater. .

The pair of seawater inflow amount regulating plates 530 and 540 flow along the crossing direction, and the hole size can be adjusted.

The hole size adjustment method can be achieved by changing at least one of the pair of seawater inflow amount control plates 530 and 540 to be vertically or horizontally positioned.

In addition, a net 430 for preventing foreign matter from entering the turbine unit 500 is installed at both ends of the turbine unit 500.

Therefore, foreign matter from the seabed can be prevented from flowing into the interior of the turbine unit 500 at the source.

Although specific embodiments of the power generating apparatus of the present invention have been described above, it is apparent that various modifications can be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100, 400: Support
110: Stopper
200, 500: turbine section
210:
220: first rotating part
230:
240:
510:
520: guide blade
300. 600:

Claims (14)

A support;
A turbine portion mounted on the support portion and having blades independently rotated through a forced air blow; And
And a power generating unit installed on the support unit and generating power by receiving rotational force from the turbine unit,
The turbine unit includes a plurality of turbine units connected in series so as to be interlocked with each other, and the rotating shafts of the plurality of turbine units are rotatably connected to each other,
The turbine section,
A main body portion having a hollow outer tube;
A first rotating part disposed in the inside of the main body part inside the inner tube, both ends of which are rotatably supported at both ends of the main body part, and a first blade of a screw shape rotated by the flowing air is installed;
A second rotating part installed inside the body part, the second rotating part being formed on an outer periphery of the inner tube and having a screw-shaped second blade rotated by the air to be flowed; And
And a blower installed in the main body to forcibly supply compressed air to the first and second blades to forcibly rotate the first and second blades,
On the support portion, a centrifugal plate is disposed between the turbine portion and the power generation portion,
Wherein a center of the centrifugal plate is connected to a rotating shaft that forms a rotation of the turbine portion.
delete delete The method according to claim 1,
Wherein the inner tube comprises:
The diameter of the one end of the main body portion is gradually decreased or increased along the other end thereof,
The first blade
Wherein the inner tube is formed to have a vertical width in inverse proportion to a diameter of the inner tube.
The method according to claim 1,
Projecting lines protruding outward are formed on the outer periphery of both ends of the main body part,
The projecting line
And a stopper provided on an upper end of the support portion to fix the posture of the main body portion.
The method according to claim 1,
Wherein the first blades and the second blades are formed so that the inclination directions of the first blades and the second blades are opposite to each other.
The method according to claim 6,
The blower
A first blowing part installed at one end of the main body part for forced blowing with the second blades,
And a second air blowing unit installed at the other end of the main body for forcedly blowing air to the first blades,
Wherein the main body includes a guide cover,
The guide cover
A first guide cover which is bent at an outer periphery of the one end of the main body to guide the forced air blown from the first blown portion toward the second blades,
And a second guide cover which is bent at an outer periphery of the other end of the main body to guide the forced airflow generated from the second air rich portion toward the first blades.
delete A support portion extending downward from the lower edge portion and having a plurality of support legs supported by the sea floor;
A turbine section detachably fixed to an upper end of the support section and having a rotation section capable of rotating bidirectionally in accordance with tide or ebb flow of seawater; And
And a pair of power generation units positioned on both sides of the turbine unit,
A pair of latching members is provided on both sides of the upper end of the support portion, the width of which gradually decreases along the upper side,
Wherein a pair of fitting grooves for fitting the pair of engaging members is formed on both side surfaces of the turbine portion,
A plurality of regulating rods for connecting the pair of engaging members to each other and regulating an upper end of the turbine portion are further provided above the turbine portion,
The rotation unit includes:
A rotating shaft having a predetermined length and provided at both ends of the turbine section so as to be rotatable,
A plurality of blades disposed on the outer periphery of the rotary shaft and formed in a screw shape from one end of the rotary shaft at different positions along the other end of the rotary shaft;
And a plurality of support members extending from an outer periphery of the rotary shaft and supporting the plurality of blades along a longitudinal direction of the rotary shaft,
Wherein the plurality of blades are spaced from an outer periphery of the rotary shaft.
delete delete 10. The method of claim 9,
At both ends of the turbine section,
Guide blades for guiding the flow of the seawater are formed,
Wherein the guide blades are curved so as to form an opposite shape to the shape of the blade.
10. The method of claim 9,
At both ends of the turbine section,
A pair of seawater inflow amount control plates arranged to overlap with each other for controlling the inflow amount of the seawater and having a plurality of holes,
Wherein the pair of seawater inflow amount control plates flow along the direction in which they are crossed, so that the hole size can be adjusted.
10. The method of claim 9,
At both ends of the turbine section,
Wherein a mesh for preventing the foreign matter from entering is installed.

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