WO2012077890A1

WO2012077890A1 - Hydroelectric generator installed in flowing water

Info

Publication number: WO2012077890A1
Application number: PCT/KR2011/006416
Authority: WO
Inventors: 이승철; 이명훈
Original assignee: Lee Seung Chul; Lee Myeong Hun
Priority date: 2010-12-07
Filing date: 2011-08-30
Publication date: 2012-06-14
Also published as: KR101042650B1; MX2013006448A; JP2014515070A; BR112013014047A2

Abstract

The present invention relates to a hydroelectric generator installed in flowing water, which is disposed within a flowing river to introduce the water current into the generator, thereby generating power according to the flow of the water. In the hydroelectric generator, a water inlet (14) is disposed in the side of the upper portion of a cylindrical body (10), and a water outlet (15) is disposed in the side of the lower portion of the body (10). A groove (12) for moving the flowing water has a spiral shape and is formed along the inner surface of the wall part (11) of the body (10) so as to connect the water inlet (14) to the water outlet (15). A wing (50) is rotatably fixed to the inside of the body (10) so that the wing (50) is rotated adjacent to the end (13) of the groove (12) for moving the flowing water. The center shaft (53) of the wing (50) is connected to a generator (20) disposed in a groove part (16) of the top surface of the body (10). The generator (20) is sealed from the water by a cover (30) and a sealer (40). An inflow water induction body (60) is disposed in the water inlet (14). The water flowing into the inflow water induction body (60) flows along the groove (12) for moving the flowing water within the body (10) while being rotated so as to rotate the wing (50).

Description

Small Hydro Power Generator Installed at Runoff

The present invention relates to a hydrophobic power generator installed in flowing water, and more particularly, to a hydrophobic power generator installed in flowing water installed in a flowing river and configured to generate power according to the flow of water by flowing water into the generator.

Common power generation methods include hydroelectric power generation using hydroelectric power, thermal power generation using fossil fuels, and nuclear power generation using nuclear power.

These power generation methods require large-scale power generation facilities and enormous amounts of energy to operate them, and the installation sites are limited. In particular, fossil fuels such as petroleum and coal as energy sources used in thermal power generation are highly dependent on other fuels, causing problems such as exhaustion of resources. In addition, there is a concern that air pollution and radioactive leakage may not be environmentally friendly, and there is a limit that its use is not permanent because resources for generating power are limited.

Therefore, in order to prevent environmental pollution caused by depletion of resources caused by the use of petroleum or coal, and various disasters caused by global warming caused by burning oil or coal, and the generation of various pollutants, recently, solar power, tidal power, Eco-friendly and permanent power generation methods using natural energy such as wave power, wind power and hydro power have been developed and applied.

Among them, the electricity production method of converting solar energy or wind energy into electrical energy and storing them in electric power storage batteries has a significant limitation on weather and environment. In addition, tidal power generation can be obtained only in the region where the tidal difference is severe, so it can only be applied to a limited area, and wave power generation can only be applied to a limited place where waves continue to occur like the tidal power generation. There is a disadvantage in that there is a restriction in the installation place.

In addition, in the case of hydroelectric power generation requires a lake or reservoir in which a large amount of water is stored, this also has to be applied only to a limited place, which places a limitation on the installation place. However, the hydroelectric generator provides an advantage that it is possible to obtain a stable semi-permanent power with little maintenance cost once installed.

On the other hand, since a general type hydroelectric generator is a method of obtaining electricity by rotating a turbine by using a drop of water in a high position, water storage facilities such as a dam, power generation facilities installed below the dam, and water used for power generation There was an installation problem in which drainage systems for river or sea construction had to be built on a relatively large scale.

In addition, the conventional hydroelectric generator has a limitation in that the operating efficiency of the generator is reduced when there is a dry season or a drought in which water is not sufficiently stored in the reservoir.

In converting tidal flows with slow flow or river flow into power, not only the wings receiving flows but also the number must be large.

Patent No. 534546 is disclosed as such a hydroelectric generator. In this invention, a rotor is installed on an endless track installed in parallel with a water flow direction, and a generator is operated by a rotational force of the rotor. The rotating body installed includes a plurality of water plate, and a plurality of wings receiving the force is aligned in the same direction as the flow direction, so that the rear wing receives the flow force lowered by the preceding wing, There was a drawback that the use was not economical.

The present invention has been made in order to solve the above-mentioned problems, it is rotated while obtained to create a vortex-shaped water, and also through the water outlet while rotating through the vortex flow moving groove inside the body to make a fast water, fast water The purpose of the present invention is to provide a hydrophobic power generator installed in flowing water by rotating and rotating the wing plate of the wing by the water pressure continuously.

It is fixed at the bottom of rivers, rivers and irrigation canals, where there is a flow rate, to prevent the destruction of aquatic ecosystems such as the movement of fish without disturbing the flow of water, and it is environmentally friendly and is not greatly restricted by the conditions of the installation site. Regardless of the purpose, it aims to be able to develop stably by appropriately responding to fluctuations in the reservoir state.

In order to achieve the above object, the present invention has an inlet 14 formed on one side of the upper side of the cylindrical body 10, and an outlet 15 formed on one side of the lower side of the body 10, and the inlet 14. A water flow moving groove 12 is helically formed along the inner surface of the wall portion 11 of the body 10 to connect the water outlet 15 to the water outlet 15, and rotates adjacent to the groove end 13 of the water flow moving groove 12. The blade 50 is rotatably fixed to the inside of the body 10, the generator 20 is installed in the central axis 53 of the blade 50 and the groove 16 of the upper surface of the body 10 is connected, the generator 20 is installed to be watertight by the cover 30 and the sealer 40, the inlet conductor 60 is installed in the inlet 14, the flow of water entering the inlet guide 60 is rotated inside the body 10 Rotating along the water flow groove 12 of the blade 50 is configured to generate power while rotating together,

The blade 50 is fixed to the central shaft 53 so as to pass through the upper and lower ends of the hollow central cylindrical portion 51, the upper end of the central shaft 53 penetrates the upper center of the body 10 to the generator 20 It is fixed to the power generation shaft and the power generation, the wing plate 52 of the wing 50 is formed in the circumference of the central cylindrical portion 51, a convex curved portion 52-1 is formed toward the direction of water flow ,

The induction conductor 60 is composed of a frame 70 and the rotation expansion pipe 80, the frame 70 is a flange 71 is formed to be engaged with the flange formed in the inlet 14 of the body 10 , One frame 72 having a diameter of three to five times the diameter of the flange 71 is formed, the one frame 72 and the flange 71 is connected to each other fixed by a plurality of frame bars 73, each Rotating grooves 73-1 are formed in the same line on the end portions of the frame 73 facing each other,

The rotary expansion pipe 80 is formed with an expansion tube 81 having an inclination in which the frame bar 73 is fixed, and a guide rail 82 protrudes along the circumference at an outer diameter of the expansion body 81 to form a frame 70. Inserted into the rotary groove (73-1) of the) is rotatably fixed, the hydrophobic generator installed in the flowing water, characterized in that a plurality of guide wings 83 are fixed at regular intervals to the inner diameter of the expansion tube (81) to provide.

As described above, the present invention has an effect of increasing the efficiency of power generation because the flow rate is faster than the flowing water is generated because the flow of water installed in the bottom of the flowing water is introduced to generate a swirling water flow.

* In addition, the water flows through the water flow groove, and when it receives the centrifugal force, it rotates and swirls, so the rapid flow rate is generated and it continues to be rotated while rotating the blades, further increasing the power generation efficiency.

In addition, the hollow central cylinder induces smooth rotation of the wing, and the wing plate is made of carbon fiber having a higher specific gravity than water, so that it can rotate without any weight resistance.

The groove formed in the upper part of the body not only provides a space for installing a generator, but also has an effect of allowing the inner space to have a low center and a high outside shape so that the water can turn well outside.

The induction conductor of the present invention allows the inflow of water into the body well, and has an effect of inflowing the water into the spiral while rotating the expansion pipe to swirl the flow.

1 is a perspective view showing a hydropower generator installed in the running water of the present invention.

Figure 2 is a plan view showing a hydropower generator installed in the running water of the present invention.

Figure 3 is a cross-sectional view showing a hydropower generator installed in the running water of the present invention.

Figure 4 is an exploded perspective view showing a hydropower generator installed in the running water of the present invention.

Hereinafter, the configuration and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

The present invention is installed so as to be submerged in the flowing water having a certain velocity or more flow, such as a river to install the induction conductor 60 at the inlet of the body 10 to enable the power generation by the flowing water, by the induction conductor 60 A spiral water flow moving groove 12 is formed to discharge the introduced water while rotating, and the wing 50 is rotatably fixed inside the body 10 so as to be rotated by water passing through the water flow moving groove 12. The upper end of the central axis 53 of the blade 50 is configured to generate power by connecting to the generator 20.

An inlet 14 is formed at one side of the upper side of the cylindrical body 10 having a space 18 formed therein, and an outlet 15 is formed at one side of the lower side of the body 10, the inlet 14 and the outlet. A water flow moving groove 12 is helically formed along the inner surface of the wall portion 11 of the body 10 to connect 15. Water entering through the inlet 14 is discharged to the outlet 15 while rotating along the water flow groove 12. At this time, the rotating water flows through the water flow groove 12 by centrifugal force.

The blade 50 is rotated by the water flowing along the water flow groove 12, the power is generated by the rotating blade (50).

The water flow moving groove 12 has a semicircular cross section, and each semicircular groove forms a spiral and reaches from the inlet 14 to the outlet 15. The wing 50 is rotatably fixed to the inside of the body 10 so as to rotate adjacent to the groove end 13 of the water flow moving groove 12, the central axis 53 and the upper surface of the body 10 of the wing 50 The generator 20 installed in the groove 16 of the is connected.

The generator 20 may be installed to be watertight by the cover 30 and the sealer 40, and electricity generated from the generator may be stored externally through a wire. The inlets of these wires are also sealed to prevent water from entering the generator.

In addition, the water inlet conductor 60 is installed in the inlet 14, while the water flowing into the water inlet conductor 60 rotates along the water flow groove 12 inside the body 10 while rotating the blades 50 together. It is configured to. The induction conductor 60 is composed of a frame 70 and a rotation expansion tube 80 as an important configuration for entering water when installed in the flowing water.

Frame 70 is a flange 71 is formed to be engaged with the flange 14-1 formed in the inlet 14 of the body 10, the circle having a diameter of 3 to 5 times the diameter of the flange 71 The frame 72 is formed.

The one-frame 72 and the flange 71 are connected and fixed to each other by a plurality of frame bars 73, and the rotating grooves 73-1 are formed in the same line on the end portions of each frame 73 facing each other. The rotary groove 73-1 is provided with a bearing to facilitate the rotation of the rotary expansion tube 80 such as a ceramic bearing.

Rotating expansion pipe 80 is a trumpet-shaped expansion tube 81 having a slope in which the frame bar 73 is fixed, the guide rail 82 protrudes around the outer diameter of the expansion tube 81 frame is formed The rotary expansion tube 80 is rotatably fixed by being inserted into the rotary groove 73-1 of the 70.

A plurality of guide wings 83 are fixed to the inner diameter of the expansion tube 81 to protrude at a predetermined interval, the guide blade 83 is fixed in a spiral is rotated naturally as water enters, expansion tube 81 is When rotated, the incoming water is further rotated to enter the body 10.

The wing 50 installed inside the body 10 has a central axis 53 fixed to penetrate the upper and lower ends of the hollow central cylindrical portion 51, and the upper end of the central axis 53 is the upper center of the body 10. Through and fixed to the power generation shaft of the generator 20 is generated.

Wing plate 52 of the wing 50 is formed in the circumference of the central cylindrical portion 51, a convex curved portion 52-1 is formed in the direction in which the water flows, the surface facing the water entering direction Is concave, leading to better rotation by water.

The water rotated in this way is quickly rotated into the body 10 to create a tornado-shaped flow while being rotated and discharged.

Claims

Inlet port 14 is formed on one side of the upper side of the cylindrical body 10, the outlet port 15 is formed on one side of the lower side of the body 10, the body (to connect the inlet 14 and outlet 15) A water flow moving groove 12 is formed spirally along the inner surface of the wall portion 11 of the 10, the wing 50 is rotated adjacent to the groove end 13 of the water flow moving groove 12, the body 10 It is fixed to the inside rotatably, the central shaft 53 of the blade 50 and the generator 20 installed in the groove 16 of the upper surface of the body 10 is connected, the generator 20 is sealed with the cover 30 It is installed to be watertight by (40), the inlet conductor 60 is installed in the inlet 14, while the water flowing into the inlet conductor 60 while rotating along the water flow grooves 12 in the body (10) It is configured to generate power while rotating the wings 50 together,

The blade 50 is fixed to the central shaft 53 so as to pass through the upper and lower ends of the hollow central cylindrical portion 51, the upper end of the central shaft 53 penetrates the upper center of the body 10 to the generator 20 It is fixed to the power generation shaft and the power generation, the wing plate 52 of the wing 50 is formed in the circumference of the central cylindrical portion 51, a convex curved portion 52-1 is formed toward the direction of water flow ,

The induction conductor 60 is composed of a frame 70 and the rotation expansion pipe 80, the frame 70 is a flange 71 is formed to be engaged with the flange formed in the inlet 14 of the body 10 , One frame 72 having a diameter of three to five times the diameter of the flange 71 is formed, the one frame 72 and the flange 71 is connected to each other fixed by a plurality of frame bars 73, each Rotating grooves 73-1 are formed in the same line on the end portions of the frame 73 facing each other,

The rotary expansion pipe 80 is formed with an expansion tube 81 having an inclination in which the frame bar 73 is fixed, and a guide rail 82 protrudes along the circumference at an outer diameter of the expansion body 81 to form a frame 70. Inserted into the rotating groove (73-1) of the) is rotatably fixed, the hydrophobic power generator installed in the flowing water, characterized in that a plurality of guide wings (83) are fixed at regular intervals in the inner diameter of the expansion pipe (81).