KR100990988B1 - Cyclone Waterpower Generator - Google Patents

Abstract

According to the present invention, in the vortex hydroelectric generator, in particular, a horizontal induction pipe, a vortex induction pipe, and a hopper are combined, and a turbine and a generator for generating electricity are installed at the bottom of the hopper to increase the speed of water flowing at a constant speed. It relates to a vortex hydroelectric generator characterized by maximizing the power generation efficiency by converting,

A horizontal induction pipe having a U-shaped cross section so that the bottom surface and both side surfaces are coupled to each other so that water flows in one direction; A cylindrical vortex guide tube installed at the end of the horizontal guide tube and having a diameter of at least twice the width of the horizontal guide tube to cause vortex; A hopper installed at a lower end of the vortex type induction pipe to change the flow velocity rapidly; A turbine installed at a lower end of the hopper and rotating using water passing through the hopper; It is characterized in that it comprises a generator which is connected to the turbine receives a rotary power of the turbine to generate electricity while rotating itself;

Vortex-type hydroelectric generator of the present invention is compact and has a structure that makes the rotation of water provides an effect that is easy to install because it does not inferior to the structure does not harm the urban environment when installed in urban rivers.

Hydro-generators, rotor blades, bearings, spiral turbine blades

Description

Vortex Hydroelectric Generator {Cyclone Waterpower Generator}

The present invention relates to a vortex hydroelectric generator, in particular, a horizontal induction pipe, a vortex induction pipe and a hopper are combined, and a turbine and a generator for generating electricity at the bottom of the hopper are installed to increase the speed of water flowing at a constant speed. It relates to a vortex hydroelectric generator characterized by maximizing the power generation efficiency by converting quickly.

In general, fossil fuels, as is known, tend to be unstable in terms of price and supply because of the centralized reserves on the planet, and non-producing countries suffer from extreme instability from the problem of oil surges.

In addition, since it is impossible to regenerate, the reserves are limited, and because it is a source of environmental pollution, environmental pollution is particularly serious.

In addition, in the case of electricity generation using fossil fuels, air pollution is further generated due to the non-combustion of fossil fuels, and it is urgent to develop alternative fuels to replace them.

In addition, power plants using sunlight, wind, and water have been developed to solve the problem of fossil fuels, but the reality is that they face many difficulties due to installation location selection and energy conversion efficiency.

On the other hand, among the generators using the natural force, the hydro generator uses the difference between the dam generator of storing and releasing water and the pump generator and tidal power generating power at the time when the electric power is used by pumping water in the time when the electric power is left. Although tidal generators exist to generate electric power by converting water flow and free fall energy into kinetic energy, conventional hydroelectric generators have a disadvantage in that they are made in a large, expensive construction cost and damage to the natural environment. In order to solve this problem, there is a need for an improvement in terms of its small size, nature-friendly and efficiency.

The present invention is to solve the above problems, generally install a high-efficiency hydroelectric generator by installing a vortex-type hydroelectric power generator in the water flowing in the ditch or pipe to increase the flow rate of water, thereby producing a stable power Its purpose is to provide a hydroelectric generator having a structure capable of.

As a means for achieving the above object,

The present invention includes a horizontal induction pipe having a bottom surface and both side surfaces coupled to each other so that water flows in one direction to the center thereof in a U-shape; A cylindrical vortex guide tube installed at the end of the horizontal guide tube and having a diameter of at least twice the width of the horizontal guide tube to cause vortex; A hopper installed at a lower end of the vortex type induction pipe to change the flow velocity rapidly; A turbine installed at a lower end of the hopper and rotating using water passing through the hopper; A generator which is connected to the turbine and receives a rotating power of the turbine and generates electricity while rotating itself; The turbine and the generator is characterized in that it is installed in multiple stages under the hopper.

In addition, one end of the horizontal induction pipe is characterized in that it further formed a water level adjusting groove for adjusting the water level.

In addition, the turbine is characterized in that made by attaching a spiral turbine blade to increase the amount of rotation.

Hydroelectric generator according to the present invention, by installing a horizontal induction pipe and a vortex induction pipe at the output end of the water flowing through the ditch, pipe or river or the sea, and further by installing an additional electric generator at the bottom of the vortex induction pipe Hydroelectric power using flow velocity is possible.

In addition, the vortex-type hydroelectric generator is compact and has a structure that makes the rotation of the water provides an effect that is easy to install because it does not inferior as a structure that does not harm the urban environment when installed in urban rivers.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view of a vortex type hydraulic generator of the present invention.

Figure 2 is a front view of the vortex type hydraulic generator of the present invention.

3 is a plan view of a vortex type hydraulic generator of the present invention.

4 is a cross-sectional view of the vortex type hydraulic generator of the present invention.

5 is an embodiment of the vortex hydroelectric turbine of the present invention.

6 is a conceptual view of the vortex hydroelectric generator operation of the present invention.

7 is an embodiment of the vortex type hydraulic generator of the present invention,

The component of the present invention is a horizontal induction pipe 100 into which water is introduced for the first time, a vortex flow guide pipe 200 installed at the end of the horizontal guide pipe, and a hopper installed at the bottom of the vortex flow guide pipe ( 300, a turbine 400 installed at the lower end of the hopper, and a generator 500 connected to the turbine.

The horizontal guide tube 100 has a U-shaped cross section, the upper portion of which is open, and three sides of which are closed, and means for allowing water to flow through a groove formed inside.

The shape of the horizontal guide tube 100 can be diversified. In the embodiment of the present invention, the bottom surface and the side surface are installed to extend in a straight shape, but the side surface may be manufactured in a curved shape, or in a curved straight shape. Of course it can be produced. In addition, it is also possible to use a cylindrical tube installed in the existing trench.

The vortex type induction pipe 200 is attached to the end of the horizontal induction pipe 100 as the cylindrical shape of the upper and lower portions to allow the water passing through the horizontal induction pipe 100 to be rotated in a vortex form while being introduced. As a means, at least twice as wide as the width of the horizontal induction pipe so that the water passing through the horizontal induction pipe 100 meets the vortex type induction pipe 200 while the rotation is made. The minimum diameter of the vortex flow guide tube 200 should be twice the width of the horizontal guide pipe 100, preferably 3 to 4 times is suitable.

And, when water passing through the horizontal induction pipe 100 meets the vortex flow guide pipe 200, and hits the wall surface of the vortex flow guide pipe 200, there is no way to rotate along the wall surface, according to the whirlwind It rotates like a wind. Therefore, when the water located on the wall has a rotational force, the water located in the center portion receives the rotational force and rotates down at a high speed. In fact, when the water moving along the wall rotates, it transmits the rotational power to the center. Therefore, the water rotating along the wall rotates slowly, but the more the rotational power is transmitted toward the center, the faster the rotational speed becomes. As you descend, you descend.

The hopper 300 is made integrally with the lower end of the vortex type induction pipe 200, or is attached to the welding by means that the water rotates through the vortex type induction pipe 200 is drawn into the passage at a higher speed to be.

That is, since the hopper 300 has a conical shape having a lower diameter than the upper portion, the rotational force of the water rotating helically as the water passes from the inlet of the hopper 300 to the output part is doubled, so that the flow velocity becomes very fast.

As a result, when the hopper 300 is installed, the water rotates at a high speed while passing through the hopper because the diameter of the inlet part and the output part is different, and accordingly, the flow rate of the flow rate is rapidly increased.

This is the same principle that the water is discharged at high speed when the bottle is filled upside down and the water is rotated out. When the inlet of the bottle is small and the main body is large, the water inside the bottle is rotated by shaking the bottle. It is similar to ejecting it quickly.

In addition, the horizontal induction pipe 100 should be further formed in the water level adjusting groove 110, because when the water overflows when the water is introduced into the vortex flow pipe does not generate vortex.

That is, the water flowing into the vortex-type induction pipe 200 can be rotated in a whirlwind while touching the wall of the vortex-type induction pipe 200, if the water overflows into the vortex-type induction pipe 200 It does not rotate in the form of a whirlwind, and thus cannot change the flow of the flow rate.

Therefore, in the present invention, the water level control groove 110 is formed on one side of the horizontal induction pipe 100 so that a predetermined amount or more of water is discharged sideways before entering the vortex type induction pipe 200 so that the vortex induction pipe 200 is formed. The water was always supplied at a constant level.

The turbine 400 is attached to the lower end of the hopper 300, inserts a spiral turbine blade 430 of the type shown in Figure 5 so as to rotate naturally according to the flow of water passing through the hopper 300. . In addition, the turbine 400 is fixed using the bearing 410 to enable a natural rotational movement relative to the bearing. Of course, other fastening means may be added for the natural rotation of the turbine and this description is omitted since such turbine fastening techniques are common.

The generator 500 is connected to the turbine 400 to produce a rotation corresponding to the speed of the turbine to produce electricity, if necessary to be connected to the turbine through the intermediate gear 420, which is the turbine 400 The position and the installation position of the generator 500 is to facilitate the design.

That is, the gears of the turbine 400 and the generator 500 may be directly connected, or a plurality of power transmission intermediate gears may be installed and connected as necessary.

7 is an embodiment of the present invention, by installing the turbine and the generator in multiple stages, the water passing through the primary turbine 400 is guided to the secondary turbine 400a and rotates once again through the secondary generator 500a. It is a structure that can generate power. That is, by installing a turbine and a generator in multiple stages under the hopper 300 can maximize the power generation efficiency.

Looking at the operation of the present invention below.

First, a horizontal induction pipe 100 is installed at an output end of water flowing in a ditch or other related water, a river, and the sea so that water is introduced into a horizontal induction pipe. The horizontal guide tube 100 is formed with a water level adjusting groove 110 so that when a large amount of water is introduced into the horizontal guide tube 100, a predetermined amount of water passes through the water level adjusting groove 110.

Water passing through the horizontal guide pipe 100 rotates while hitting the wall of the vortex guide pipe 200 while entering the vortex guide pipe 200.

The water rotating through the vortex-type induction pipe 200 is output in a state in which the flow velocity is converted faster while passing through the hopper 300 while rotating along the wall of the hopper 300.

The turbine 400 installed in the lower portion of the hopper 300 receives water passing through the hopper 300, so that the spiral turbine blade 430 rotates at a high speed based on the bearing 410, and the turf 400 is rotated. The rotational power of is provided to the generator 500 via the intermediate gear 420.

Accordingly, the generator 500 produces electricity in a state in which the rotational energy of the water is maximized.

As a result, the present invention can maximize the production of electricity using a fast flow rate by making a simple physical structure without any energy as a method for speeding up the flow rate of water even though small.

In addition, if the rainy season or a lot of rain to increase the inflow of water through the water level control groove 110 by discharging through the water level to maintain a constant water level so that the water supply to the vortex-type induction pipe 200 to maintain a constant rotational force do.

In addition, although the invention has been described in connection with the preferred embodiments mentioned, other various modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

1 is a perspective view of a vortex type hydraulic generator of the present invention.

Figure 2 is a front view of the vortex type hydraulic generator of the present invention.

3 is a plan view of a vortex type hydraulic generator of the present invention.

4 is a cross-sectional view of the vortex type hydraulic generator of the present invention.

5 is an embodiment of the vortex hydroelectric turbine of the present invention.

6 is a conceptual view of the vortex hydroelectric generator operation of the present invention.

7 is a vortex type hydroelectric generator embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: horizontal guide tube

110: water level adjusting groove

200: vortex type induction pipe

300: Hopper

400: turbine

410: bearing

420: power relay gear

430: spiral turbine wing

500: generator

Claims (4)

A horizontal induction pipe 100 having a U-shaped cross section so that the bottom surface and both side surfaces are coupled and water flows in one direction to the center thereof; A cylindrical vortex guide pipe (200) installed at the end of the horizontal guide pipe and having a diameter of at least twice the width of the horizontal guide pipe to cause vortex; A hopper 300 installed at a lower end of the vortex type induction pipe to change the flow velocity rapidly; A turbine 400 installed at the lower end of the hopper and rotating using water passing through the hopper; A generator 500 connected to the turbine to receive rotational power of the turbine and generate electricity while rotating itself; The turbine 400 and the generator 500 is a vortex hydroelectric generator, characterized in that it is installed in multiple stages in the lower hopper. The method of claim 1, One end of the horizontal induction pipe 100 is a vortex-type hydroelectric generator characterized in that it further formed a water level adjusting groove 110 for adjusting the water level. The method of claim 1, The turbine 400 is a vortex-type hydroelectric generator, characterized in that made by attaching a spiral turbine blade 430 to increase the amount of rotation. delete

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