KR101702811B1 - Apparatus for generating a power by using buoyancy - Google Patents

Abstract

The present invention relates to a power generating device using buoyancy. According to the present invention, the power generating device includes: a first storage unit storing water, wherein a part of a front surface thereof is formed in an open structure; a second storage unit storing the water at lower water level than that of the water stored in the first storage unit; a rotation unit installed on the front surface open in the first storage unit and installed to rotate by buoyancy of the water stored in the first storage unit; a leakage circulation pump providing power capable of transferring the water stored in the second storage unit to the first storage unit and intermittently operating in accordance with the height or amount of the water stored in the first storage unit; an accelerating unit connected to a rotation shaft of the rotation unit and accelerating a transferred rotation force; and a generator generating electricity using the rotation force accelerated in the accelerating unit. A left part of the rotation unit is located in the first storage unit, and a right part of the rotation unit is located on the upper side of the second storage unit. The power generating device using the buoyancy can generate the power using a natural resource such as gravity, gravity acceleration, and buoyancy without using a facility which is complex and expensive.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a buoyancy-

The present invention relates to a device capable of generating power by using buoyancy of water.

Electricity is indispensable in modern society. Most people are so accustomed to enjoying the benefits of modern technology that requires electricity, such as computers, video games, smart TVs, radios and light fixtures, so it's hard to imagine buying a day without electricity.

Currently, having a few days or weeks without electricity can be a disaster for many people. While there are a number of different technologies that are useful for development for the use of the public, they often require significant investment and cost to build power generation technologies and infrastructure. Typically, conventional power generation technologies have the problem of low efficiency and loss when the generated electricity is delivered to industrial facilities and individual consumers.

In addition, although a variety of alternative technologies based on abundant natural resources such as solar, wind, and seawater have been proposed, they have not achieved widely recognized commercial success due to the high investment costs and low efficiency associated with delivering power and electricity to end users . For example, power plants based on sun, wind, and sea water have been proposed and built in various locations throughout the country. However, they have many disadvantages.

Solar- or wind-based facilities often do not produce and provide enough electricity to meet the needs of individual homes and industrial plants due to unpredictable environmental factors such as climate and weather conditions. These natural resources-based facilities are millions of dollars in cost, not billions of dollars for the initial installation and maintenance of facilities, and often do not convey the intended benefits to customers.

Conventional power generation technologies tend to be very inefficient in delivering power and electricity to end users. That is, a large amount of electricity is lost before developed electricity is used by end customers (such as individual consumers or industrial users) located remotely from the location of the power plant. Thus, there is a need for an efficient technique for producing electricity and delivering electricity to individual homes and industrial facilities.

The present invention proposes a buoyancy-based power generation apparatus capable of generating electricity using abundant natural resources such as gravity, gravity acceleration, and buoyancy without using complicated and expensive facilities.

The power generation apparatus of the present invention includes a first storage unit having a structure partially opened on its front surface and storing water, a second storage unit storing water at a water level lower than the water level of the water stored in the first storage unit, A rotating means installed on the opened front side of the first storing portion and provided to rotate by buoyancy of water stored in the first storing portion and a driving means for moving the water stored in the second storing portion to the first storing portion A water leakage circulation pump that is intermittently operated in accordance with the amount or height of water stored in the first storage unit; a speed increasing unit connected to the rotating shaft of the rotating unit and accelerating the rotational force to be transmitted; Wherein a left side portion of the rotating means is located in the first storing portion, and a right side portion of the rotating means Characterized in that the configuration so as to be disposed above the second storing part.

According to the embodiment as described, it is possible to implement a very simple structure of the power generation apparatus, and the rotating means is rotated using the buoyancy generated by the water stored in the storage portions having different water levels, It can be converted into energy and stored.

1 is a perspective view showing a buoyancy-based power generating apparatus of the present invention.
2 is a side view of a power generation apparatus using buoyancy according to the present invention for explaining the rotation of the rotating means by buoyancy.
3 is a side view of a power generation apparatus using buoyancy according to the present invention.
4 is an enlarged view of the area A shown in Fig.
FIGS. 5 and 6 are views showing the power generator constituting the power generator of the present embodiment and the accelerator built in the power generator.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings. It should be understood, however, that the scope of the inventive concept of the present embodiment can be determined from the matters disclosed in the present embodiment, and the spirit of the present invention possessed by the present embodiment is not limited to the embodiments in which addition, Variations.

Suffix "module" and " part "used in the description relating to the present invention are to be given or mixed in consideration only of ease of specification, and they do not have a meaning or role that distinguish themselves.

FIG. 1 is a perspective view showing a buoyancy-based power generating apparatus according to the present invention, and FIG. 2 is a side view of a power generating apparatus using buoyancy according to the present invention. FIG. 3 is a side view of the power generation apparatus using buoyancy of the present invention, and FIG. 4 is an enlarged view of the area A shown in FIG.

The power generation apparatus 100 includes a first storage unit 110 in which water is stored and a second storage unit 110 in which water is stored at a height smaller than the height of the first storage unit 110, And a rotating unit 130 that rotates by the buoyancy of water between the first storage unit 110 and the second storage unit 120.

The first storage unit 110 and the second storage unit 120 are formed in an L shape due to their height differences.

The rotation means 130 is formed in a cylindrical shape having a width smaller than the width of the first and second storage portions 110 and 120 and the rotation axis 131 of the cylindrical rotation means 130 And is disposed at the boundary between the second storage unit 120 and the first storage unit 110.

When the rotating unit 130 is rotated by buoyancy between the first storage unit 110 and the second storage unit 120, the rotational force is transmitted to the rotating plate 220 along the rotating shaft 131.

The V-belt 230 may be connected to the rotating plate 220 and may be connected to the power shaft of the water circulation pump 210 at the other side of the V-belt 230. However, the V-belt 230 is not necessarily provided, and when the amount of water stored in the first storage unit becomes less than a predetermined height, the water circulation pump 210 is driven .

The water circulation pump 210 has a function of transferring a part of the water stored in the second storage part 120 to the first storage part 110 by using the power generated by the rotation of the rotation part 130 . That is, the water leakage circulation pump 210 can be intermittently driven as needed by using a part of the generated electricity, and the water in the second storage part is transferred to the first storage part by the operation of the water leakage circulation pump 210 .

This is because a minute gap may be generated at the open front side of the first storage unit 110, that is, at the position where the rotation unit 130 is coupled, and is stored in the first storage unit 110 through the gap. Water may leak and fall into the second storage part 120. [

Referring to FIG. 2 showing a side view, means for sealing according to the present embodiment is formed in the region A where the front surface 111 of the first storage portion 110 and the rotating means 130 are in contact with each other. However, the amount of water stored in the first storage portion 110 may be gradually reduced by the water leakage by the sealing means.

Since the buoyant force for rotating the rotating means 130 can be reduced when the amount of water stored in the first storage portion 110 is reduced, A part of the water stored in the storage unit 120 may be drawn up and supplied to the first storage unit 110.

The water leakage circulation pump 210 is operated by the power generated by the rotation of the rotation means 130 and only when the water level of the first storage portion 110 is less than a preset value, The operation of the controller 210 can be started. The water leakage input hose 211 connected to the water circulation pump 210 communicates with the inside of the second storage part 120 and the water leakage output hose 212 connected to the water circulation pump 210 is connected to the first storage part 110 ).

According to the present embodiment, the leakage output hose 212 may be provided with a sensor for detecting the level of the first storage unit 110. For example, the water leakage output hose 212 is configured to be located on the upper side in the first storage unit 110, and when water is not detected by the water level sensor coupled to the end of the water leakage output hose 212 , It can be determined that the water in the first storage unit 110 has exceeded the reference value and leaked.

At this time, the water circulation pump 210 operates and draws the water stored in the second storage part 120 from the water leakage input hose 211 and supplies the water to the first storage part 110 (110) through the water leakage output hose 212 ). ≪ / RTI >

The operation of the water leakage circulation pump 210 is intermittently operated according to the level of the first storage part 110 and the driving force is generated by the power generated by the rotation of the rotation unit 130 as electricity.

The rotation of the rotating means 130 will be described in more detail.

The left portion of the rotating means 130 is located within the first storage portion 110 and the remaining right portion is located above the second storage portion 120.

Accordingly, the left portion of the rotating means 130 positioned in the first storage portion 110 is transmitted with the force B applied in the upward direction by the buoyancy of water, and as shown in FIG. 2, (130) is rotated clockwise.

When rotation of the rotating means 130 in the clockwise direction is started, the continuous force is received by the buoyancy of the water contained in the first storage portion 110 to ensure continuity of rotation.

The rotating means 130 rotating as described above rotates both the rotating shaft 131 and the rotating plate 220 and converts the electric energy into electric energy and charges the electric power by the electric power generating means 400 connected to the rotating shaft 131.

It is noted that a minute gap may be formed between the front surface 111 of the first storage unit 110 and the rotating unit 130. It is preferable that the water leakage in the first storage unit 110 is minimized Is shown in Fig.

A part of the sealing means 300 is fixed to the front surface 111 of the first storing part 110 and the remaining part of the sealing means 300 is installed to maintain contact with the outer circumferential surface of the rotating means 130. [ That is, one end of the sealing means 300 is fixed in contact with the first storing portion 110, and the other end of the sealing means 300 is bent toward the rear of the first storing portion 110 Shape. The other end of the sealing means 300 may be in contact with the outer circumferential surface of the rotating means 130.

By the shape of the sealing means 300, it is possible to reduce the amount of water leaked from the open front side of the first storage portion 110, and the water level of the water contained in the first storage portion 110 is lower than a preset value The water is supplied by the action of the water leakage circulation pump 210.

With this configuration, the buoyant force applied to the left portion of the rotating means 130 can be kept constant, and the rotation of the rotating means 130 in the clockwise direction in the figure can be continuously performed.

The configuration of the power generation means 400 for converting the power generated by the rotation of the rotation means 130 into electrical energy is shown in Figs. 5 and 6. Fig.

The rotary shaft 131 of the rotary unit 130 is connected to the rotary shaft 410 of the transducer 420 and the rotary shaft 410 of the transducer is connected to a booster input shaft 411 constituting a speed reducer composed of a plurality of gears do. The converter 420 is provided with an accelerator for accelerating the rotational speed of the rotating means 130. The rotational force transmitted to the accelerator input shaft 411 is transmitted to the generator 450 through the accelerator output shaft 412 do.

The generator 450 generates electricity by using the high rotational torque output from the speed reducer and includes a capacitor 430 for storing the electricity generated by the generator 450 and a capacitor 430 connected to the capacitor 430. [ And a converter 440 for converting electricity stored in the capacitor 430 to be usable in the home.

According to the embodiment as described above, it is possible to implement a very simple structure generating apparatus, and the rotating means 130 is rotated using the buoyancy generated by the water stored in the storage portions having different water levels, It is possible to convert the rotational force into electrical energy and store it.

A variety of power generation devices using buoyancy of water may be proposed, but the configuration in which buoyancy of water is constantly applied to the rotating means by a simple structure as in the present invention is an advanced one.

Claims (5)

A first storage unit having a structure in which a part of the front surface is opened and storing water,
A second storage unit for storing water at a water level lower than the water level stored in the first storage unit;
Rotating means installed on the open front side of the first storing portion and rotated by buoyancy of water stored in the first storing portion,
A water leakage circulation pump provided with power for transferring the water stored in the second storage section to the first storage section and intermittently operated according to the amount or height of water stored in the first storage section;
A speed increasing unit connected to the rotating shaft of the rotating unit for accelerating the transmitted rotational force,
And a generator for generating electric power by using a rotational force increased in the speed reducer,
Wherein a left side portion of the rotating means is located in the first storing portion and a right side portion of the rotating means is located on the upper side of the second storing portion,
A sealing means is coupled between the front surface of the first storage portion and the rotating means,
And the other end of the sealing means is bent toward the rear of the first storing unit so that the other end of the sealing unit is connected to the rotation unit And a shape that can be brought into contact with an outer peripheral surface of the power generating device. delete delete The method according to claim 1,
Wherein the water leakage circulation pump includes a water leakage input hose communicating with the inside of the second storage part and a water leakage output hose communicating with the inside of the first storage part,
Wherein the water leakage circulation pump transfers part of the water stored in the second storage unit to the first storage unit using a rotational force generated by rotation of the rotation unit. 5. The method of claim 4,
A sensor for measuring the water level of the water stored in the first storage unit is formed at an end of the water leakage output hose,
Wherein the water circulation pump starts operation when the water level of the first storage unit becomes lower than a predetermined height by the sensor.

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