KR20100132709A - The mass generation of electricity system that used waves - Google Patents

Abstract

PURPOSE: A mass power generation system using waves is provided to implement large-capacity power generation using a self floating body, a power transmission element, and an associated rotary shaft. CONSTITUTION: A mass power generation system using waves comprises a rotary shaft(100), a self floating body(200), and a power transmission element(300). The rotary shaft is composed of a plurality of small discrete shafts(110) assembled in a polygonal shape. The self floating body having buoyancy and falling power is provided on the exterior of each discrete shaft of the rotary shaft. The power transmission element is installed between the rotary shaft and the self floating body.

Description

The mass generation of electricity system that used waves

The present invention relates to a new high-capacity wave power generation system capable of high-capacity power generation using wave force and buoyancy and buoyancy of the wave scattered in the water or sea.

In general, as a method of producing electricity, hydropower, thermal power, nuclear power, wind power, solar power, etc. are generally used. These power generation methods are mostly used for enormous energy consumption, high technology, Manpower, expensive, high-tech equipment, etc. are required, as well as enormous installation, maintenance costs, and regional limitations, including significant dysfunction (environmental pollution, etc.), there is a limit to the activation.

Therefore, in recent years, in consideration of the environmental advantages of Korea, which is surrounded by the sea on three sides, the emphasis is placed on the development of new alternative energy and green energy using waves.

On the other hand, waves (waves) are surface waves that have short periods and wavelengths that are mainly caused by wind force. It is the general name of wind wave, swell, and wave breaking which is transformed in the shallow sea near the shore, and is commonly known as tidal wave, tsunami, and high tide. It is distinguished from waves such as high waves in terms of period, wavelength, and cause of production.

Waves are called "floor" for the highest water surface, "goal" for the lowest water, "wave" for the distance between neighboring floors, and "wave" for the height difference between floors and valleys. The direction the wave travels is called “wave”, the apparent velocity at which the floor (or goal) of the wave moves is called the “phase velocity” of the wave, and after one point passes The time until the next floor passes is called a “cycle,” which is usually about 1 to 30 seconds in the case of ordinary wind-generated waves (gravity waves).

In particular, the wave force (wave force) depends on the height, period, phase velocity, coastline length, and method of converting the waves into energy, but according to the standards that have been studied and developed,

It is known to be about 6 ~ 10㎾ / m, which is estimated to be 65 (GW) in the entire Korean peninsula, and it can produce enormous electricity that can meet the power demand of 325,000 households (650kW) with only 1% of these potential resources. It is reported that it can produce about 130 billion won (2.2 million barrels) of import substitution effect.

The use of these waves is expected to produce a huge amount of power, which is expected to make a significant contribution to improving the domestic power energy self-sufficiency rate, but it is practically impossible to realize meaningfully with domestic technology.

That is, as a conventional wave power generation equipment using wave power researched and developed so far,

The system is installed commercially by installing the pipe vertically along the coast, compressing the air in the pipe by vertical movement of the sea surface, and turning the turbine to generate power, and the application of the buoyancy buoyancy generator using the power of the buoyant body moving along the vertical movement of the wave. It is understood.

However, in the case of the above-mentioned air-compressed turbine power generation method, since it is a power generation method using a difference in air mass and air compression action when the height of the wave height changes,

The structure of the facility is very complicated and unnecessarily large installation cost is required as well as unnecessarily large installation cost, and the air compression force that appears when the height of the digging height changes is limited in wide sea conditions where the pressure dispersion space is infinite. The amount of power that can be regenerated and reduced by power energy will also be limited, especially considering the low digging conditions at sea, which represent an average digging height of 0.5 ~ 3m per year. In preparation, there is a problem that large-scale power generation or its utility value is not high.

Next, since most of the power generation facilities using the buoyancy of the wave is an inefficient way of generating power only by one buoyancy action given during the synergism of the buoyant body moving according to the wave height moving up and down. Compared to the size of installed facilities and the enormous installation costs, the amount of power that can be produced is only less than expected.

In the present invention, not only has a simple buoyancy action on the floating body 200 that can be vertically descended by the wave force (wave energy) but also to exhibit a significant drop force due to its own weight when falling after lifting; Providing breakthrough power converting means (B) capable of amplifying and recovering the kinetic energy of the buoyant body, which has a significant buoyancy and dropping force at the time of rising and falling (two cycles of movement), to the total generation energy extremely effectively; Polygonal connection such as 6-, 16-, 36-angle… It is structured, but it is installed in a multi-stage multi-direction each in a multi-stage shaft where connecting joints are connected between each other and the whole body can be rotated integrally, and each of the individual ascending and descending amplification kinetic energy outputted from them is combined into one joint rotation. The present invention has been completed as a technical problem with a focus on providing a breakthrough wave power generation system capable of obtaining a large amount of power generation energy gathered collectively on the shaft (100) (C).

Poly-connected a plurality of small individual shafts 110 as described above to constitute a combined rotation shaft 100 that can be rotated integrally; In the outer periphery of each individual shaft 110 of the associated rotary shaft (100) is composed of a floating body 200 among those having a significant buoyancy and falling force; A power transmission device 300 is installed between the associated rotary shaft 100 and the self-weight floating body 200 to be converted into rotational energy; A plurality of individual power generators (B) including a self-weight floating body 200 and a power transmission device 300 are installed on each of a plurality of individual shafts 110 forming a polygon of the associated rotary shaft 100 in multiple directions. One; Inside the combined rotation shaft 100 is installed a generator (M) capable of producing electricity with the generated rotational power; The feature is made.

The wave power generation system of the present invention, which can be configured as described above, has a high efficiency of drawing and transmitting a considerable rotational power in both the floating body and the two cycles during the ascending and descending movement of the buoyant body, which have both a considerable buoyancy and a falling force. Due to the combined structure of the power transmission means and a number of individual power generating devices (consisting of injured body and power transmission means) on the combined rotation shaft, it is possible to build a large capacity power generation system using scattered waves. It is a revolutionary invention that is expected to contribute greatly to the increase of domestic energy self-sufficiency.

In order to achieve the above technical problem, the present invention will be described in more detail based on the accompanying drawings.

In the present invention, as shown in FIG. 1, a plurality of small individual shafts 110 are connected to each other in a polygonal shape (5, 6, 16, 36, etc.), and the rotational motion can be transmitted between the shafts. Connecting the rotary joint 350 to install the combined rotary shaft 100 that can be rotated integrally;

In the outer periphery of each of the plurality of individual shaft 110 of the combined rotation shaft 100 injuries among those who can hold up to a considerable drop force due to the self-weight at the time of lowering and lowering as well as vertical ascent and descent due to the buoyancy of the waves Each of the sieves 200 is installed;

Upper and lower two-cycle kinetic energy of the floating body 200 between each shaft 110 forming a polygonal structure of the associated rotary shaft 100 and the floating body 200 having a considerable buoyancy and self-weight falling force Installing a power transmission device 300 converting the total amount into rotational energy for power generation;

Each of the plurality of individual shafts 110 forming a polygon of the combined rotation shaft 100 has a plurality of individual power generators (B) including the self-weight floating body 200 and the power transmission device 300 in multiple directions, respectively. Installed;

One or more of the plurality of shafts 110 of the associated rotary shaft 100 is installed a generator (M) that can generate electricity using the rotational energy generated in the associated rotary shaft (100); Is the characteristic gist.

Hereinafter, the detailed description and detailed operation and operation order for each component will be described.

First, between one floating body 200 and one power transmission device 300 of the above configuration can be obtained as a single small amount of rotational power of a constant capacity in accordance with the up and down movement of the wave, they are set as one The combined relationship is hereinafter referred to as individual power generating device (B) for convenience.

In addition, the self-weight floating body 200 is provided with a certain amount of buoyancy medium (air, gas, etc.) 210 is filled in the inner sealed space to have a constant buoyancy and at the same time the outer cylinder 220 wrapped around the sealed space wave The portion that is submerged below the surface of the entire surface of the injured body 200 by giving a weight of 50% or more compared to the buoyancy of the buoyancy medium 210 so as to have a considerable fall force by the weight of the falling during the lifting, lowering of While at least 50%, the shape of the tube 220 is formed in the shape of the upper and lower straits (up and down) narrower toward the bottom and wider downwards, the valley (wave height) It is desirable to be able to minimize the resistance of the water in the process of falling to the bottom).

At this time, there may be a variety of methods as a proper means of giving weight to the floating body 200, but may be made of a metal of a certain thickness having a considerable specific gravity in the manufacture of the outer cylinder 220 wrapped around the closed space.

In addition, the power transmission device 300 is a means for changing the upper and lower two-cycle kinetic energy of the floating body 200 that is operated in accordance with the movement of the wave to the rotational energy of the associated rotary shaft 100,

The first power transmission gear 311 and the second power transmission gear which are simultaneously operated in accordance with the up and down movement of the floating body 200 affected by the movement of the wave at the rear end of the floating body 200 ( 312) putting on a pair;

Each individual shaft 110 of the combined rotation shaft 100 to which the first and second power transmission gears 311 and 312 correspond is rotated at a constant rotational speed according to the movement of the first and second power transmission gears 311 and 312. First and second rotary gears 321 and 322 which are engaged between the first and second power transmission gears 311 and 312 and teeth in order to apply a constant rotational force thereto;

In this case, a rotation is performed between any one of the first and second power transmission gears 311 and 312 moving in accordance with the operation of the floating body 200 and any one of the first and second rotary gears 321 and 322 installed on the shaft 110. Equipped with a direction change idler 350, the first and second power transmission during the rotation operation of the first and second rotary gears (321,322) according to the movement of any one of the first and second power transmission gears (311,312). To be able to rotate in the opposite direction to the movement of either of the gears 311 and 312;

Inside of the first and second rotary gears 321 and 322 installed on the shaft 110, the first and second power transmission gears 311 and 312 may be operated only in a predetermined direction and may be idling in the reverse direction. Has a structure in which each one-way control clutch bearing 400 can be built-in,

 For reference, when the first and second power transmission gears 311 and 312 are configured in a half moon shape as shown in FIG. 14, it is more preferable that the engagement range between the gears is expanded during rotation thereof.

In particular, a seesaw shaft 250 fixed to a separate fixed frame is formed between the first and second power transmission gears and the floating body 200, and a wave movement is performed on one side around the seesaw shaft 250. In accordance with the floating body 200 to move up and down, the first and second power transmission gears (311, 312) are located on the other side and seesaw between the floating body 200 and the first and second power transmission gears (311, 312) As the seesaw has a shape, the first and second power transmission gears 311 and 312 on the diagonal rotate in a corresponding radius according to the operation of the floating body 200 on one side about the seesaw shaft 250. It is configured to be.

Next, the individual power generating device (B) including the one floating body 200 and one power transmission device 300 has a shaft (outside the plurality of individual shafts constituting the associated rotary shaft 100) By installing the same number as each of the number of 110, a plurality of small power generated from each of the individual power generating device (B) is collectively collected in one allied rotary shaft 100 to obtain a combined large-scale rotating power It is configured to be.

On the other hand, inside the polygonal structure of the associated rotary shaft 100 of the associated rotary shaft 100 having a large rotational driving force according to the gathering and amplifying power of the small power transmitted from the plurality of individual power generating device (B) One or more generators (M) are installed for producing a certain amount of electricity with rotational power, and between the generator (M) and the combined rotation shaft (100) are common and various rotational power transmission means (pulley, belt, chain, sprocket, etc.) Of course, they can be employed.

In addition, one or more flywheels 600 may be installed on a plurality of individual shafts 110 of the combined rotation shaft 100, which control and adjust the unstable rotational force due to the irregular wave condition in a uniform rotational motion. It is intended to help stabilize.

In addition, the outer periphery of the allied rotation shaft 100 is to block the water contact to the mechanical transmission elements such as the power transmission means 300 and the inner allied rotation shaft 100, the generator (M) except the floating body 200. By installing and preventing the waterproof frame 700 can be safely protected.

According to the present invention, which can be configured as described above, according to the self-weight floating body 200 moving up and down according to the movement of the wave, as well as a certain buoyancy with a certain buoyancy due to its own weight,

It is possible to draw with power energy for power generation every two cycles of movement from falling (goal) to the floor (high) and falling from the floor (high) to the high (low).

In addition, a first power transmission gear and a second power transmission gear are installed at the rear end of the floating body 200 around the seesaw shaft 250, and then the first and second rotary gears ( 321 and 322 are installed to mutually engage with each other, and between the one of the second power transmission gears and one of the first and second rotary gears 321 and 322, an idle gear 350 for converting rotational direction is configured and the first In accordance with the two rotary gears 321 and 322, the one-way rotational driving clutch bearings are installed.

  The first and second power transmission gears interlocked with each other when the floating body 200 is raised and lowered according to the movement of the wave may be unidirectionally rotated by the first and second rotary gears 321 and 322.

Particularly, when the floating body 200 is elevated, one of the first and second power transmission gears turns one of the first and second rotary gears 321 and 322, while the first and second rotary gears 321 and 322 are rotated. The other is idling, so that a considerable amount of rotational power can be taken out to the shaft side when the floating body 200 is elevated,

When the floating body 200 is raised and lowered, one of the first and second power transmission gears rotates one of the first and second rotary gears 321 and 322, while the first and second rotary gears 321 and 322 are also rotated. Since the other one is idling, it is possible to exhibit a significant rotational power even when the floating body 200 is lowered.

For example, when the floating body 200 rises due to the movement of the wave, the first power transmission gear rotates the first rotary gear and the shaft, but at this time, the second rotary gear, the other side gear, idles according to the role of the clutch bearing. On the other hand,

The second power transmission gear rotates the second rotary gear and the shaft during the lowering, but at this time, the first rotary gear, which is the other side gear, is idling according to the role of the clutch bearing, thereby raising and lowering the floating body 200. It is possible to draw out rotational power in a certain direction at any time.

And as the individual power generating device of the configuration as described above is collectively and intensively coupled to the individual shaft of the combined rotary shaft 100, the combined rotary shaft 100 exhibits a considerable mass of rotating power, this Using a generator to drive a large amount of electricity that has been difficult to expect compared to existing facilities is possible.

1 is a view illustrating a preferred embodiment of the present invention

2 is an exemplary view showing a large capacity power generation system of the present invention.

Figure 3 is a plan view of a large capacity power generation system of the present invention in plan view

4 is an exemplary view showing an operating state of the large-capacity power generation system of the present invention.

5 is an exemplary view showing a floating body lifting operation state of the large-capacity power generation system of the present invention.

6 is an enlarged view illustrating a part of the individual power generator of the present invention.

Figure 7 is a cross-sectional view of the individual power generator combined with a waterproof frame of the present invention

Figure 8 is an illustration of the lifting operation state of the individual power generator of the present invention

9 is an exemplary view showing a second rotary gear and the second power transmission gear operating state of the individual power generating device of the present invention.

10 is an exemplary view according to the operation of the second rotary gear and the second power transmission gear of the present invention.

11 is a side view illustrating a coupled state of the first power transmission gear and the first rotary gear of the present invention;

12 is a view illustrating an exemplary embodiment of a first power transmission gear and a first rotary gear of the present invention.

13 is an exemplary view seen from the side of the first power transmission gear and the first rotary gear of the present invention.

14 is an exemplary view showing another embodiment of the present invention

* Description of Signs of Main Parts of Drawings *

M: Generator B: Individual power generator

100: combined rotation shaft 110: individual shaft

111: joint 200: self-weight floating body

220: cylinder 250: seesaw

300: power train 310: buoyancy medium

311: first power transmission gear 312: second power transmission gear

321: first rotating gear 322: second rotating gear

350: idle gear 400: clutch bearing

800: fixed frame 600: flywheel

700: waterproof frame

Claims (9)

A plurality of small individual shafts 110 are connected to each other by polygons (5, 6, 16, 36, etc.), but between each shaft is connected to the rotary joint 111 that can transmit the rotational movement Installing a combined rotary shaft 100 which can be integrally rotated; In the outer periphery of each individual shaft 110 of the combined rotary shaft 100, the weight of the floating body 200 that can hold up to a considerable drop by the weight of the vertical lifting, lowering by the buoyancy of the wave as well as the weight after falling ascending (200) ) Installed separately; The total amount of upper and lower two-cycle kinetic energy of the floating body 200 between each shaft 110 forming the polygonal structure of the associated rotary shaft 100 and the self-weight floating body 200 having a considerable buoyancy and self-falling force. Installing a power transmission device 300 for converting the power into rotational energy for power generation; Individual power generating device (B) including the self-weight floating body 200 and the power transmission device 300 is a plurality of sets in each of a plurality of individual shafts 110 forming a polygon of the associated rotary shaft 100 in a multi-direction Installed; Installed at least one of the plurality of shafts of the associated rotary shaft 100, the generator (M) for producing electricity using the rotational energy generated in the associated rotary shaft (100); Large capacity power generation system using the waves characterized by. The method of claim 1, The self-weight floating body 200 is filled with a certain amount of buoyancy medium (air, gas, etc. 210) in the inner sealed space to have the necessary buoyancy, The outer cylinder 220 surrounding the sealed space is given a weight of 50% or more compared to the buoyancy of the buoyancy medium 210 to have a considerable drop force by the weight of the fall during the rising and falling action of the wave, The weight allows the submerged portion of the floating body 200 to be submerged below the water surface at least 50%, The shape of the tubular 220 is formed in the shape of the upper and lower straits (up and down) narrower toward the bottom and wider toward the bottom, the water resistance in the process of falling from the bottom of the wave (high point of the wave) to the goal (lower point of the wave) Large capacity power generation system using waves, characterized in that configured to minimize the. 3. The method of claim 2, The application of weight to the floating body 200 is a large-capacity power generation system using waves, characterized in that made of a metal material of a certain thickness having a considerable specific gravity in itself during the manufacture of the cylinder (220). The method of claim 1, The power transmission device 300 is a first power transmission gear 311 which is simultaneously operated in accordance with the up and down movement of the floating body 200 affected by the movement of the wave at the rear end of the floating body 200. ) And a pair of second power transmission gears 312; Each individual shaft 110 of the associated rotation shaft 100 to which the first and second power transmission gears 211 and 312 correspond is rotated at a constant rotational speed according to the movement of the first and second power transmission gears 311 and 312. First and second rotary gears 321 and 322 which are engaged between the first and second power transmission gears 311 and 312 and teeth to apply a constant rotational force thereto; In this case, a rotation is performed between any one of the first and second power transmission gears 311 and 312 moving in accordance with the operation of the floating body 200 and any one of the first and second rotary gears 321 and 322 installed on the shaft 110. Equipped with a direction change idler 350, the first and second power transmission during the rotation operation of the first and second rotary gears (321,322) according to the movement of any one of the first and second power transmission gears (311,312). To be able to rotate in the opposite direction to the movement of either of the gears 311 and 312; Inside the first and second rotary gears 321 and 322 installed on the shaft 110, the first and second power transmission gears 311 and 312 may be operated only in one direction and may be idling in the opposite direction during the rotation operation according to the movement of the first and second power transmission gears 311 and 312. Large-capacity power generation system using waves, characterized in that each one-way control clutch bearing 400 is built in. The method of claim 1, A seesaw shaft 250 fixed to a separate fixed frame 800 is formed between the first and second power transmission gears 311 and 312 and the floating body 200, and one side around the seesaw shaft 250 is provided. There is a floating body 200 that moves up and down in accordance with the movement of the wave, and the first and second power transmission gears (311, 312) are located on the other side of the floating body 200 and the first and second power transmission gear ( 311,312) A high-capacity power generation system using waves characterized in that they have mutual seesaw structures. The method of claim 1 The individual power generating device (B) including the one floating body 200 and one power transmission device 300, A plurality of small powers generated from each of the individual power generating device (B) by installing the same number as the number of the shaft 110 on the outside of the plurality of individual shaft 110 constituting the combined rotation shaft 100 Massive power generation system using the wave, characterized in that configured to obtain a combined large-scale rotational power by collectively gathered in one allied rotary shaft (100). The method of claim 1 Inside the polygonal structure of the associated rotary shaft 100 is installed one or more generators (M) for large-capacity electricity production according to the gathering and amplifying power of the small power delivered from the plurality of individual power generating device (B) Large capacity power generation system using a wave. The method of claim 1 A plurality of individual shafts 110 of the combined rotation shaft 100 is further installed at least one flywheel (flywheel, 600) for controlling, adjusting, and stabilizing the unstable rotational force due to irregular wave conditions in a uniform rotational motion Large capacity power generation system using one wave. The method of claim 1 The outer periphery of the associated rotary shaft 100 for the water contact block for the mechanical transmission elements such as the power transmission means 300 and the inner associated rotary shaft 100, the generator (M), except the floating body 200 Large capacity power generation system using waves, characterized in that the waterproof frame 700 is installed.

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