KR20080004535U - Float type hydraulic power generator - Google Patents

Abstract

The present invention relates to a floating hydroelectric generator, and more particularly to a floating hydroelectric generator for converting the kinetic energy of the flow of water flowing in the river or river into electrical energy. Floating hydroelectric generator of the present invention for this purpose, the floating hydroelectric generator, a plurality of guide pillars are fixed to the lower portion; A buoyancy member floating in water by being supported to be movable up / down along the plurality of guide pillars; A plurality of fixed beams having one side fixed to the buoyancy member; A propeller coupled to the other side of the fixed beam; A transmission member to which one side of the rotating rod of the propeller is coupled; And a generator coupled to the other side of the transmission member and fixed to the upper portion of the buoyancy member, wherein the generator receives the rotational force of the propeller by the flowing water and converts the rotational force into electrical energy. It is done.

Generator, buoyancy member, propeller, pillar, water

Description

Float type hydraulic power generator

1 is a perspective view of a floating hydropower apparatus according to a preferred embodiment of the present invention.

Figure 2 is an exploded perspective view of a floating hydropower apparatus according to a preferred embodiment of the present invention.

Figure 3 is a side view of the floating hydropower apparatus according to a preferred embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: fixing member 20: guide pillar

21: guide hole 30: buoyancy member

31: guide rod 32: guide member

40 propeller 41 rotating rod

42: coupling protrusion 43: coupling portion

50: transmission member 60: fixed beam

62: coupling hole 70: generator

71: rotation axis

The present invention relates to a floating hydropower device, and more particularly, to a floating hydropower device for converting kinetic energy of water flowing in a river or river into electrical energy.

Previously known hydroelectric power generation has had the disadvantage of being unable to submerge or produce power during flooding or when precipitation increases significantly.

On the other hand, the power generation system with a means of power generation in the buoyancy line has a problem that the buoyancy line is easy to float at the point of development during the flood, the buoyancy line is overturned when a strong wave occurs.

Therefore, the present invention is made to solve the problems of the prior art as described above, the first object of the present invention is provided in the buoyancy member floating in the water is possible to flow in accordance with the fluctuation of the height of the flowing water, or the number of river water In some cases, even if the body is always floating on the water by using a flow rate of the water to provide a floating hydroelectric power generating device to produce electric energy by rotating the propeller.

In addition, the second object of the present invention is a simple structure and easy to produce, and a floating hydroelectric generator having a rigid support structure to prevent overturning or detachment and to prevent damage even in the rough wave caused by heavy rain or strong wind. To provide.

The structure of the floating hydroelectric device according to an embodiment of the present invention for achieving the above object, a plurality of guide pillars are fixed to the lower portion; A buoyancy member floating in water by being supported to be movable up / down along the plurality of guide pillars; A plurality of fixed beams having one side fixed to the buoyancy member; A propeller coupled to the other side of the fixed beam; A transmission member to which one side of the rotating rod of the propeller is coupled; And a generator coupled to the other side of the transmission member and fixed to the upper portion of the buoyancy member, wherein the generator receives the rotational force of the propeller by the flowing water and converts the rotational force into electrical energy. It is done.

Here, the guide pillar in the vertical direction is formed in the guide pillar, it is preferable that a plurality of guide rods to move up / down along the guide hole is provided on the side portion of the buoyancy member.

 In addition, one end is fixed to the guide rod, it is preferable that both ends are included a guide member for moving up / down along the outer peripheral surface of the guide pillar.

In addition, the inner portion of the guide member is preferably provided with a predetermined length in a shape corresponding to the outer peripheral surface of the guide pillar.

On the other hand, in a preferred embodiment, the transfer member is preferably provided with a belt.

In addition, the guide pillar is preferably provided inclined by a predetermined angle.

In addition, the fixed beam is preferably provided in plurality.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a floating hydroelectric generator according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view of the floating hydroelectric generator according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention The side view of the floating hydroelectric apparatus by the.

As shown in the figure, the floating hydroelectric generator for converting the kinetic energy of the propeller due to the flow of water flowing in the river or river into the electrical energy guide pillar 20, buoyancy member 30, fixed beam 60 Including the propeller 40, the transmission member 50, the generator 70, the rotational force of the propeller 40 by the flowing water is to be transmitted to the generator 70 through the transmission member (50).

The guide pillar 20 is provided with a plurality of cylindrical pipes so that the upper portion is connected to the lower portion is fixed to the river or river bottom by the fixing member 10. The plurality of pipes are spaced at regular intervals to form a rectangular guide hole 21, preferably inclined by a predetermined angle (5 ~ 45 degrees) around the vertical direction of the fixing member 10. Do. On the other hand, the fixing member 10 is made of a material of concrete or cement.

The buoyancy member 30 is made of a material that floats in the water in the shape of a rectangular parallelepiped and is supported by the guide column to be able to flow up and down. In addition, the side portion of the buoyancy member 30 is provided with a plurality of guide rods 31 to move up / down along the guide hole 21, is fixed to the guide rod 31, both ends are the The guide member 32 is provided to be movable up / down along the outer circumferential surface of the guide pillar 20. Here, the guide rod 31 is preferably formed in a predetermined length and the inner portion is provided in a shape corresponding to the outer peripheral surface of the guide pillar (20).

The fixed beam 60 is a cylindrical or rectangular beam shape, one side is fixed to the side portion of the fixing member (10). In addition, the coupling hole 62 is formed at the other side of the fixed beam 60 is coupled to the rotary rod 41 of the propeller. Here, it is preferable that the fixed beam 60 is provided in plural and is coupled to both sides of the propeller 40 rotating rod 41 to support the propeller 40.

The propeller 40 is provided with a plurality of rotary blades in the longitudinal direction of the rotary rod 41 in the outer portion of the rotary rod 41 of the cylindrical. Here, one side portion of the rotating rod 41 is formed with a cylindrical coupling portion 43 so that the transfer member 50 can be coupled. In addition, a cylindrical coupling protrusion 42 is formed at both ends of the rotary rod 41 to be coupled to the coupling hole 62 of the fixed beam.

On the other hand, in another embodiment it is preferable that the bearing is provided on the other side of the plurality of fixed beam 60 is coupled to both ends of the rotating rod (41).

The transmission member 50 is provided with a belt so that one side portion is coupled to the coupling portion 43 of the rotary rod 41 and the other side is coupled to the rotary shaft 71 of the generator so that the rotary rod 41 and the rotary shaft 71. This will cause it to spin.

Referring to the operation and effects of the present invention configured as described above, the propeller 40 is rotated by the flow rate by installing the floating hydroelectric generator in the river or river, the propeller 40 is rotated as the propeller 40 rotates The belt, which is a transmission member 50 having one side coupled to the rotary rod 41 of the 40, rotates, and accordingly, the rotation shaft 71 of the generator 70 coupled with the other side of the belt rotates so that the propeller 40 rotates. The rotational force of) is converted into electrical energy.

Meanwhile, the buoyancy member 30 to which the generator 70 and the propeller 40 are fixed is movable up and down to the guide pillar 20 firmly fixed to the fixing member 10 at the bottom of a river or river. It is provided to prevent the apparatus of the present invention from drifting downstream during the flow of strong water due to heavy rain.

At this time, the guide rod 31 provided in the buoyancy member 30 is moved up / down along the guide hole 21 formed in the vertical direction in the guide pillar 20, fixed to the guide rod 31 Guide member 32 is moved up and down slide along the outer circumferential surface of the guide pillar.

In addition, the buoyancy member 30 is made of a material floating in the water can be moved up / down as the height of the water surface changes as the flow rate of the river or river is changed.

In addition, the guide pillar 20 is provided to be inclined by a predetermined angle to the fixing member 10 and the buoyancy member 30 of the bottom is fixed to the generator 70 and the propeller 40 by a strong wave wave By preventing sudden up / down rocking of the buoyancy member 30, the devices of the present invention prevent breakage or separation.

In the above, the configuration and operation of the present invention is shown in accordance with the above description and drawings, but this is only described for example, various changes and modifications within the scope not departing from the technical idea and utility model registration claims of the present invention Of course it is possible.

As described above, the floating hydroelectric generator of the present invention can produce electricity through the generator of the rotational force of the propeller due to the flow rate of water regardless of the water level, the structure is simple, the production cost is reduced, and with a solid support structure As it is not separated or damaged by heavy rain or strong wind, maintenance cost is reduced.

Claims (7)

In the floating hydropower device, A plurality of guide pillars whose lower parts are fixed by fixing members; A buoyancy member floating in water by being supported to be movable up / down along the plurality of guide pillars; A fixed beam having one side fixed to the buoyancy member; A propeller coupled to the other side of the fixed beam; A transmission member to which one side of the rotating rod of the propeller is coupled; And And a generator coupled to the other side of the transmission member and fixed to an upper portion of the buoyancy member. The generator is a floating hydroelectric generator, characterized in that for receiving the rotational force of the propeller by the water flowing through the transmission member to convert into electrical energy. The method of claim 1, The guide column in the longitudinal direction is formed in the guide pillar, floating hydroelectric generator, characterized in that a plurality of guide rods provided in the side portion of the buoyancy member to move up / down along the guide hole. The method of claim 2,  One end portion is fixed to the guide rod, floating hydro-power unit characterized in that it comprises a guide member for moving both ends up and down along the outer circumferential surface of the guide pillar. The method of claim 3, wherein Floating hydroelectric generator, characterized in that the inner portion of the guide member is provided with a predetermined length in a shape corresponding to the outer peripheral surface of the guide pillar. The method of claim 1, Floating hydroelectric generator, characterized in that the transmission member is a belt. The method of claim 1, Floating hydroelectric generator, characterized in that the guide pillar is provided inclined by a predetermined angle. The method of claim 1, Floating hydroelectric generator, characterized in that the fixed beam is provided in plurality.

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