KR20060015898A - A hydroelectric powergeneration system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydroelectric generator, and more particularly, to anchor a power generating boat rotatably mounted between two floats having high buoyancy in a river having a high flow rate. The present invention relates to an invention in which the required electric power can be obtained by self-generating.

The characteristics of the present invention described above, the support frame 11 is mounted on the front and rear of the two-side float 10 formed long, both floats 10 are provided with a predetermined interval, between the two floats 10 A generator 20 in which the blades 22 are radially formed on the outside of the rotating drum 21 is rotated by the force of the flow rate, and is connected to the rotating shaft 21a of the rotating drum 21 to receive power. It is composed of a power generation boat (1) in which electric power is produced by 30), and when the anchor 40 of the power generation boat (1) is lowered and anchored in a river having a high flow rate, the required power is self-generated. It can be achieved by a hydroelectric generator characterized in that the).

Description

Hydroelectric power generation system             

1 is a perspective view illustrating an embodiment of the present invention,

Figure 2 is a side cross-sectional view illustrating an embodiment of the present invention,

3 is a plan view illustrating one embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: power generation boat 10: float

11 support frame 12 support

20: aberration 21: rotating drum

21a: rotating shaft 21b, 31b: pulley

22: wing 30: generator

31: transmission 31a: belt

32: transformer 40: anchor

41: reel 41a: rope

42: Ratchet Wheel 42a: Handle

43: Paul

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydroelectric generator, and more particularly, to anchor a power generating boat rotatably mounted between two floats having high buoyancy in a river having a high flow rate. The present invention relates to an invention in which necessary electric power can be obtained by self-generation.

In general, hydroelectric power is a method of generating electricity by using potential energy and kinetic energy. It mainly uses a method of attracting a part of water from a high stream to a low stream, or builds a dam to raise a water level by blocking a proper place of a river. The method of rotating a turbine by free fall energy is used a lot.

However, as described above, in order to obtain hydroelectric power, large-scale civil engineering works are required to construct a large dam to block rivers, resulting in enormous construction costs.

In addition, in the case of dam construction, power generation is carried out while the flowing water is kept in confinement, so that there is a problem of submerging local residents by immersing the water around the river and moving the water. Disruptions such as harming the natural environment occurred.

Therefore, if a ship is easily towed and anchored in a place where there is a proper flow rate in a river, electric power is produced, and the proposal of a hydroelectric power generation device that does not stagnate water flow and does not require large-scale civil engineering work is urgently required.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a power generation boat in which a water wheel is rotatably mounted between two floats having high buoyancy in a river having high speed. The present invention relates to an invention in which electric power can be obtained by self-generation.

Features of the present invention for achieving the above object, the support frame 11 is mounted on the front and rear of the two-side float 10 is formed, both floats 10 are installed at a predetermined interval, both floats ( Aberrations 20 in which the blades 22 are radially formed on the outside of the rotating drum 21 mounted between the 10 are rotated by the force of the flow rate, and are connected to the rotating shaft 21a of the rotating drum 21 for power. It is composed of a power generation ship (1) that is produced by the generator 30 receives the power, and when the anchor 40 of the power generation ship (1) is lowered and anchored in a river with a high flow rate, the required electric power is generated. It can be achieved by a hydroelectric generator, characterized in that it is self-powered.

Hereinafter, described in detail by the accompanying drawings a preferred embodiment for achieving the above object is as follows.

As shown in FIGS. 1 to 3, the support frames 11 are mounted at the front and the rear of the long side floats 10, respectively, and the floats 10 are spaced at regular intervals by the support frames 11. It is equipped with a power generation ship 1, such as a boat.

The float 10 is formed so that a space portion is formed therein, or is made of a large buoyancy (floating force) to float in the water, the front of the float 10 forms a parabolic shape that narrows toward the tip of the water resistance To reduce the

Therefore, when towing the power generation ship (1) by using the power line is very easy to tow to reach the desired destination, and in some cases is rotated by the engine on the rear support frame (11) Mounting the screw can also be moved by directly driving the ship for power generation (1).

Between the two floats 10, aberrations 20 in which the wings 22 are radially mounted on the outside of the rotating drum 21 are mounted, and both rotating shafts 21a of the rotating drum 21 are supported by the support 12. It is supported by a bearing mounted on the rotatable drum 21 is made to be smoothly rotated.

Therefore, the blades 22 of the aberration 20 are rotated by the force of the flow rate, it is possible to rotate the rotary drum 21 by the force of the rotational movement of the blade (22).

The pulley 21b mounted on the rotating shaft 21a of the rotating drum 21 is connected to the pulley 31b of the generator 30 and the belt 31a so that the rotational force of the rotating drum 21 is transmitted to the generator 30. To generate electricity.

Of course, in some cases, since the power can be transmitted by the coupling of the sprocket and the chain and the gear coupling, the present invention is not limited to the power transmission method of transmitting the power of the rotating drum 21 to the generator 30.

The generator (30) is equipped with a transmission (31) for properly accelerating the rotational speed of the rotating drum (21) to obtain the number of revolutions required to generate current.

The generator 30 is a device that converts mechanical power into electric power by using electromagnetic induction, and uses an alternating current generator composed of a rotating field type or a rotating armature type according to the purpose of use of the power. It is possible to immediately generate the electric power required for the electric power supply area by using a DC generator composed of an electric power generator.

Of course, since the generator 30 having the above-described configuration is a general technical idea well known, its detailed description is omitted.

The current generated by the generator 30 is configured to boost the voltage through the transformer 32 mounted on the support frame 11 to transmit power to a place requiring electric power. The transformer 32 is a general technical idea that is widely known as a device for changing the value of alternating voltage or current using electromagnetic induction, and thus the detailed description thereof is omitted.

An anchor 40 is fixed to a rope 41a wound on a reel 41 mounted on the front support frame 11 of the ship 1 for power generation, and a ratchet wheel mounted on the shaft of the reel 41 ( 42 is configured to be in contact with the pole 43 so that it can be rotated only in one direction is configured to prevent the reverse rotation.

Accordingly, when the handle 42a mounted on the ratchet wheel 42 is rotated in one direction, the pawl 43 fixed by the pin is rotated without being caught by the gear formed on the ratchet wheel 42 to rotate the rope 41a. It is configured to lift the anchor 40, and when the pole 43 in contact with the gear of the ratchet wheel 42 is rotated to the upper to escape the gear, the anchor 40 is lowered into the water by the weight of the ratchet The wheel 42 is reversely rotated so that the anchor 40 is fixed to the bottom of the river.

According to the present invention having the above-described configuration, the power vessel is towed by a power line to transport the stream to a high speed stream, and then the anchor 40 is lowered and the power vessel 1 is anchored. As the blades 22 of the drum 21 are rotated by the resistance of the water, the rotating drum 21 is rotated, and the rotational force of the aberration 20 is transmitted to the generator 30 through the transmission 31 to supply necessary power. Since it can be produced, it can supply power by transmitting to areas where power is needed.

In particular, since a hydroelectric generator composed of a power generating vessel (1) can be freely towed and moved, selecting a river with a high flow rate and anchoring the power generating vessel immediately produces the necessary power to stably power the power where it is needed. Not only can it be supplied, but if necessary, several power generating vessels (1) can be anchored in the river to produce as much power as necessary for the power supply area.

In some cases, when power is required for a campsite with a river, the power generation vessel (1) can be anchored in a river near the campsite and can be supplied with the necessary power, which can be used for leisure purposes. This can be an advantage.

Therefore, it is possible to self-generate by hydropower only by anchoring the power generating vessel (1) in a river with a high flow rate. Therefore, it is possible to make the hydropower generation very easily even without a large-scale civil engineering work such as a dam. Since electricity is self-generated in a state that water flows naturally without needing to be locked up, there is no need to migrate the residents of the river basin. There is an advantage such as to increase as much as possible.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

According to the present invention as described above, the power generation ship (1) is towed by a power line to transfer to a river with a high flow rate, and then anchored the power generation ship (1) by lowering the anchor 40 is partially submerged in the water As the blades 22 of the rotating drum 21 are rotated by the resistance of the water, the rotating drum 21 is rotated, and the rotational force of the aberration 20 is transmitted to the generator 30 through the transmission 31, thereby requiring power. Since it can be produced immediately, there are advantages such as being able to supply power by transmitting power where it is needed.

In addition, since the generator can be installed anywhere in the stream where water flows, the size and capacity of the power generating vessel (1) can be designed and installed in various ways according to the flow rate and flow rate of the river. Completion of the disadvantages of the conventional hydroelectric power generation apparatus to be installed to the maximum, there is an advantage that can be actively utilized in power production.

Claims (2)

Support frames 11 are mounted on both sides of the long floats 10 and 10 so that the floats 10 are spaced apart from each other, and the outer side of the rotating drum 21 mounted between the floats 10. The blades 22 are radially formed in the aberration 20 is rotated by the force of the flow rate, the power is produced by the generator 30 is connected to the rotary shaft 21a of the rotating drum 21 to receive power A hydroelectric generator, comprising: a vessel (1), wherein when the anchor (40) of the generator vessel (1) is lowered and anchored in a river having a high flow rate, the necessary power can be obtained. 2. The anchor (40) according to claim 1, wherein the anchor (40) is fixed to a rope (41a) wound around a reel (41) mounted on the front support frame (11) of the power generation vessel (1), and is fixed to the shaft of the reel (41). The mounted ratchet wheel 42 is in contact with the pawl 43 fixed with a pin to prevent the reverse rotation while the ratchet wheel 42 is rotated in one direction, and the handle 42a mounted on the ratchet wheel 42 is worked. When rotating in the direction, the pole 43 fixed by the pin is rotated without being caught by the gear formed on the ratchet wheel 42, so that the anchor 40 can be raised while the rope 41a is wound, and the ratchet wheel 42 is rotated. When the pole 43 in contact with the gear is rotated to the top to be separated from the gear, the anchor 40 is lowered into the water by its own weight, the hydroelectric generator, characterized in that the ratchet wheel 42 is rotated in reverse.

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