KR20130034180A - The power generation system which uses the object which rises to the surface - Google Patents

Abstract

The present invention transfers an injured body by buoyancy to an inclined passage, and seats the transferred injured body on a rotary car, and generates power by using a floating body to generate power by rotating the rotary car with the floating force of the injured body. More specifically, the system relates to a plurality of floating bodies filled with a predetermined gas therein, and an inclined angle at a predetermined angle so that the floating bodies can be rolled by themselves by their own weight, and the upper ends are inserted to inject the floating bodies. A moving passage formed with a body inlet hole and an inlet angle connected to the lower end of the moving passage to form an inclined body to be stacked in multiple stages, and an air inlet hole for introducing air into the upper end portion connected to the lower end of the moving passage. An air chamber which accumulates the air supplied by the loading passage, the air supply device, and discharges the air into the air inlet hole of the loading passage; It is connected to the lower end of the loading passage, the storage tank is accommodated therein, and the storage tank constitutes a rotary car that rotates as the floating body leaked from the lower end of the loading passage rises, and is connected to the rotary actuator of the storage tank. A generator connected to the power generation unit, a water level sensor for sensing the water level of the water tank accommodated in the water storage tank, and a controller for controlling the air supply device based on the value applied by the water level sensor. Electric power can be continuously produced while being less restricted by external environmental conditions, and by adjusting pneumatic water to lower the water level of the inflow path loaded with the floating body to the lowest point, the floating load of the floating body is minimized. If the installation is made smoothly and the rural area or island village where power supply is not desired, It relates to a power generation system using the injured body can be reduced.

Description

The power generation system which uses the object which rises to the surface}

The present invention transfers an injured body by buoyancy to an inclined passage, and seats the transferred injured body on a rotary car, and generates power by using a floating body to generate power by rotating the rotary car with the floating force of the injured body. More specifically, the system relates to a plurality of floating bodies filled with a predetermined gas therein, and an inclined angle at a predetermined angle so that the floating bodies can be rolled by themselves by their own weight, and the upper ends are inserted to inject the floating bodies. A moving passage formed with a body inlet hole and an inlet angle connected to the lower end of the moving passage to form an inclined body to be stacked in multiple stages, and an air inlet hole for introducing air into the upper end portion connected to the lower end of the moving passage. An air chamber which accumulates the air supplied by the loading passage, the air supply device, and discharges the air into the air inlet hole of the loading passage; It is connected to the lower end of the loading passage, the storage tank is accommodated therein, and the storage tank constitutes a rotary car that rotates as the floating body leaked from the lower end of the loading passage rises, and is connected to the rotary actuator of the storage tank. A generator comprising a generator connected to the power generation unit, a water level sensor for detecting the level of water stored in the water storage tank, and a controller for controlling an air supply device based on a value applied from the water level sensor. It relates to a power generation system using a sieve.

As Korea is a non-oil producing country, the country's import dependence on crude oil is very high, and energy saving is pursued as a national goal, but energy consumption is increasing due to diversification of industrialization and high growth.

In particular, since a large amount of crude oil is used for thermal power generation to generate electricity, generating electricity without using crude oil can greatly help national finance and reduce environmental pollution.

Power from nature, such as wind, tidal and hydropower, can be expected to be environmentally friendly and highly efficient, especially at low cost, but the weather or weather has limited geographic conditions and installation costs are significant.

Therefore, there is a need for a structural device that can overcome the limited natural conditions and produce electricity in an environmentally friendly manner.

In order to overcome the above problems, various power generation systems using buoyancy have been provided.

In the Patent Publication No. 10-2001-0112206 (2001.12.20) buoyancy water storage tank buoyant water is stored and a supply port for supplying a plurality of buoyancy body at the bottom and buoyancy body floating to the upper side of the buoyancy water storage tank buoyancy water storage tank A buoyant body conveying means for transferring from the upper portion to the falling position, a turbine driven by the gravity of the buoyancy bodies falling in the falling position, a generator to rotate and drive together with the rotary drive of the turbine to drive the turbine A buoyant body supply means for supplying the buoyancy body moved downward through the supply port to the buoyancy water storage tank, the conveying means is the buoyancy body is magnetized to the N pole or S pole, the buoyancy water storage tank horizontally A conveyance belt provided in a rotating direction, at least one pair of belt pulleys around which the conveying belt is wound, and a rotation path of the conveying belt Is provided and includes a first magnet that is attached to the conveyance belt to the magnetized buoyancy body, the bottom of the buoyancy can reservoir, the second magnet of the buoyant body and the same magnetic poles are provided on.

In addition, the conveying means, the buoyancy body is magnetized to the N pole or the S pole, and provided in the horizontal direction on the buoyancy water storage tank is rotated, the magnet pole and the magnetic pole N and S poles alternately magnetized, And at least one pair of belt pulleys wound and a scraper separating the buoyant body attached to and conveyed from the magnet belt from the magnet belt in a dropping position.

And further including an impeller rotationally driven at the bottom of the buoyancy water storage tank, so that the upward movement of the buoyancy body supplied from the supply port is smooth, and the turbine is installed adjacent to the buoyancy water storage tank and in the floating direction of the buoyancy body. At least one pair of pulleys provided, a belt wound between these pulleys, and a plurality of cages fixed to the belt at fixed intervals to accommodate the buoyancy bodies carried by the conveying means, thereby providing the gravity of the buoyancy bodies. Allow it to rotate.

In addition, the buoyancy body supply means is provided with a feed screw rotatably coupled to the supply port, so that the buoyancy body dropped from the cage by the rotation of the feed screw is supplied to the buoyancy water storage tank in relation to the season, such as water harvester or freezing machine It is possible to generate electricity without electricity, to generate electricity without running water, and to provide a power generation system using buoyancy body which is advantageous for preventing environmental pollution.

In Korean Patent Publication No. 10-2007-0119187 (December 20, 2007), a reservoir filled with water, an input unit for introducing a gas-filled ball into the reservoir from the bottom of the reservoir, and receiving and receiving a ball injected into the reservoir bottom A transfer part for orbitally rotating in the up and down direction of the inside of the reservoir by using the buoyancy of the ball to be ascended, and a transfer part for collecting the ball rising to the surface and transferring the ball to the input part through a moving passage formed at the side and the bottom of the reservoir; And a water level control unit for adjusting the water level and the water pressure in the input unit so that the ball can be introduced into the water by applying the same head pressure as the bottom water pressure of the reservoir to the ball located in the input standby state. A generator is connected to the rotating part to generate power by the rotation of the rotating part, and a pair of input parts are installed inside the reservoir. Each of the rotating parts is installed correspondingly to each of the input parts, a pair of transfer parts for transferring the ball to each of the input through the moving passage formed to the outside of the reservoir is installed, outside the bottom of the reservoir A water level control unit is installed by connecting a pair of inlets, and the inlet is a cylinder discharge tube having an open upper end inside the reservoir and a lower end closed outside the bottom of the reservoir and the open discharge tube. An opening and closing portion for opening and closing an upper end and a charging portion mounted to correspond to a through hole formed at a lower end side of the discharge tube and pushing the ball transferred by the transfer portion into the discharge tube, wherein the charging portion is elastic in length. It is provided with a hydraulic system, the opening and closing plate for opening and closing the through hole of the discharge pipe is fixed to the end of the hydraulic system , It is charged to the ball through the through-hole height to the hydraulic system when the ball is transferred through the transferring hayeoteul positioned in front of the opening and closing plate to the interior of the discharge pipe.

The water level control unit includes a head pressure transfer pipe connecting the reservoir and each discharge pipe, a head pressure transfer valve installed at the head pressure delivery pipe, a water level control pipe connecting the discharge pipe, and the water level control pipe. A water level control valve installed at the outlet, an air vent connected to the upper end of each discharge pipe, a discharge valve for overflow and a discharge valve for opening and closing the discharge pipe, and water from one discharge pipe of the pair of discharge pipes to the other discharge pipe. It includes a bi-directional heavy water pump for transporting, wherein the water level control unit for connecting the reservoir and the discharge pipe and the head pressure transfer valve installed in the head pressure delivery pipe and a pair of discharge pipes Open the water level control valve and the water level control valve installed in the water level control pipe and the air vent and overflow discharge pipe and the discharge pipe connected to the upper end of each discharge pipe. The drain pipe and the drain pipe connected to the discharge valve and, each discharge pipe and a drain valve for opening and closing.

In addition, the rotating portion is the first upper sprocket located outside the water surface, the first lower sprocket installed inside the reservoir, the belt that is orbitally rotated over the first upper sprocket and the first lower sprocket, and a plurality of fixed to the outer surface of the belt It includes two baskets, the ball discharged from the input portion is inserted into the basket is received is moved upward along the belt, the generator is connected to the first upper sprocket, the basket is the entrance is large and the bottom is In a narrow shape, holes are formed in the bottom.

In addition, the transfer unit is a top horizontal transfer part which is partially immersed in the water filled in the reservoir to transfer the ball floated to the water surface in the reservoir to the moving passage, and is located in the moving passage is transferred by the upper horizontal transfer portion And a lower horizontal transfer unit for transferring the ball to the bottom of the reservoir and a lower horizontal transfer unit for transferring the ball transferred downward by the downward transfer unit to the input unit, wherein the upper horizontal transfer unit and the lower horizontal transfer unit Is a conveyor belt form, each of the belt is formed on the outside of the belt and the jaw to transfer the ball seated on the belt, the downward conveying portion is mounted on the upper end of the moving passage and the second upper sprocket, the lower portion of the moving passage The second lower sprocket which is mounted and rotates, and the second upper sprocket and the second lower sprocket Produces high-efficiency electrical energy in the natural state, including a belt and a plurality of baskets fixed to the outer surface of the belt and the ball transported through the upper horizontal transfer unit, contribute to the preservation of the global environment and human development It was developed in order to fill the container with proper pressure to the material with significantly lower specific gravity than water, and to put the container into the reservoir by using the head pressure in the reservoir through the air discharge device at the bottom of the large reservoir containing water. It provides power generation equipment using buoyancy that produces high efficiency electricity by exploiting kinetic energy rising above water surface and converting it into electric energy.

In Korean Patent No. 10-0751200 (August 14, 2007), the tank 10 in which the inclined mesh 11 is installed on the inner upper side, and the one side opening 10a of the upper tank 10 is staked out by the central axis 13 and one side At the end, a guide through box 12 in which the net basket 16 is integrally installed is installed, and an upper and lower actuating hydraulic cylinder 20 is installed at the upper portion of the water tank 10 to be flowed to the pin 15 to guide the lower end thereof. The chain connected to the through box 12 and the single shaft 14, the chain belt 60 and the chain wound around the upper and lower support gear 90 and the plurality of drive gear 80 in close proximity to the water tank 10 and the chain The outer surface of the belt 60 is equipped with a plurality of baskets 61 at equal intervals, and the drive shaft 81 of the drive gear 80 is driven in conjunction with a plurality of turbine 70 and the drive belt 83. And a float insertion hole 41 having an upper float guide tube 40 at an upper portion of the chain belt 60, and the chain belt 60. The lower collection box 51 is provided with a lower float guide tube 50, respectively, and the lower portion of the lower float guide tube 50 is provided with a horizontally operated hydraulic cylinder 30, the movement connected to the cylinder A member 30 'is provided, and the upper surface of the movable member 30' accommodates the float 100 and supplies the float receiving groove 31 to the inside of the water tank 10, and water in the water tank 10. In order to replenish the water tap 200 on the upper side of the tank.

At this time, instead of removing the up and down hydraulic cylinder 20 located above the water tank 10 and the central shaft 13, the single shaft 14, the pin 15 attached to the opening 10a of the water tank 10, A fastening guide 19 having a fixed guide through box 12 'which is provided to be inclined downward and a shaft fixed to the upper portion of the water tank 10 so that water in the water tank 10 does not flow through the guide through box 12'. ), A ball top 17 mounted on one side of the fastening guide 19, and a stopper 18 mounted on the faucet 200 to control the flow of water on the other side, and the ball receiving groove ( The bottom surface of the 31 is provided with a plurality of through holes 35, the drain box 34 for receiving the water discharged through the through hole 35, and the water on the bottom of the drain box 34 to the outside A drain hose 33 for discharging is provided.

In addition, the buoy 100 is provided with a metal sphere to form a hollow inside to obtain a buoyancy, and for the organic repeat operation of the vertical hydraulic cylinder 20 and horizontally operated hydraulic cylinder 30 on one side of the power generation device It is equipped with a separate control box for controlling, and the buoyancy floating in the water is put into the tank, and it is dropped to the outside and rotates the rotating body by its gravity to use the buoyancy to generate electric power by operating the turbine linked thereto. Provides a generator.

As described above, various power generation systems using buoyancy have been provided, but the power generation system is not only influenced by external influences but also has limitations of power generation capability.

Publication Nos. 10-2001-0112206 (Dec. 20, 2001), Publication Nos. 10-2007-0119187 (Dec. 20, 2007) and Registration Nos. 10-0751200 (Aug. 14, 2007)

The present invention is to solve the above-mentioned conventional problems, an object of the present invention is to block the storage tank containing the storage water, the moving passage to move the floating body, and the loading passage for loading and floating the floating body from the outside itself By forming the pressure of the floating body, the floating movement of the floating body and the floating and resupply of the floating body can be made repeatedly, so that the electric power can be continuously produced under the restriction of external environmental conditions, and the inflow passage in which the floating body is loaded with compressed air By lowering the water level to the lowest point by adjusting the water level of the water, when the floating body flows into the reservoir, the multi-floating floating body is loaded in the upper direction of the lowermost floating body of the loading path, thereby forming a larger load than the buoyancy of the lowest floating body. It smoothly injuries the lowermost floating body of the loading path and installs it in remote countryside or island village where power supply is not desired. In this case, the purpose is to reduce the cost of the transfer or production of power.

In order to achieve the above object, the present invention constitutes a plurality of floating bodies filled with a predetermined gas therein, and forms the inclined angle to move the floating bodies themselves by their own weight, and put the floating bodies A floating body injection hole is formed at the upper end of the moving passage so as to be connected to the lower end of the moving passage to form a predetermined angle so that the floating body is stacked in multiple stages, and air is introduced into the upper end connected to the lower end of the moving passage. An air inlet is formed in the loading passage, accumulates the air supplied by the air supply device, constitutes an air chamber which outflows the air into the air inlet of the loading passage, and is connected to the lower end of the loading passage; It is equipped with water storage, and consists of a revolving wheel in the water storage tank that rotates as the floating body leaked out from the lower end of the loading passage. And a turning point for partitioning between the loading passage in which the buoyancy body is loaded and the storage tank in which the buoyancy is generated, the generator is connected to the rotary actuator and the connecting means of the storage tank to generate power, and in the loading passage. It is characterized in that it comprises a control unit for controlling the air supply device based on the value applied by the water level detection sensor to configure the water level sensor for receiving the received water level.

In this case, to minimize the pressure loss between the chamber and the loading passage, the movable passage is configured by a hinge in the moving passage to form a plurality of pivoting plates that open and close the movement passage by a hinge, and inside the movement passage. A through hole is formed to allow air to pass through the rotating diaphragm, and an on / off valve for opening and closing the through hole is formed or rotated by a hinge in the inside of the moving passage so as to partition the moving passage into a predetermined equal part. Comprising a plurality of rotating plate, forming a through-air through the rotating plate configured in the moving passage, the sliding door for opening and closing the opening, the door opening for transmitting the driving force to open and close the opening It is characterized by further including what constitutes a copper ball.

In addition, the upper portion of the reservoir tank accommodates the reservoir and constitutes a second reservoir tank that constitutes a caterpillar rotor that rotates as the floating body leaked from the lower end of the loading passage rises, and the second reservoir tank is one side. It is characterized in that it further comprises a pneumatic holding device which is connected to the pulley of the caterpillar rotary car to drive as the caterpillar rotary car rotates to supply air to the air chamber.

And it is characterized in that it further comprises the configuration of the air pressure sensor inside the loading passage to detect the air pressure inside the loading passage and to control the pneumatic holding device based on the value.

In addition, the injured body deviated from the uppermost rotary car forms an induction angle that allows the injured body to enter the moving path by the speed of the injured force, and when the injured body completely floats to the low water surface to help more smooth circulation, It is characterized by including an air nozzle for guiding the floating body to the moving passage.

As described above, the present invention blocks the storage tank in which the water is stored, the moving passage for moving the floating body, and the loading path for loading and floating the floating body from the outside, thereby moving and floating the floating body without external weather effects. It is an advanced invention that has the effect of continuously producing power while being less constrained by external environmental conditions by allowing the sieve to be repeatedly supplied and re-supplied.

And it is an advanced invention having the effect of smoothing the outflow of the floating body by minimizing the inflow load of the floating body by adjusting the water level of the inflow passage loaded with the floating body by pneumatic pressure to lower the level.

In addition, it is an advanced invention that has the effect of reducing the costs associated with the transfer or production of electricity when installed in a remote country or island village where power supply is not desired.

1 is an exemplary view showing the configuration of a power generation system using the present invention floating body
Figure 2 is an exemplary view showing an embodiment of the on-off valve according to the configuration of the present invention
3 is an exemplary view showing an embodiment of a sliding door according to the configuration of the present invention
Figure 4 is an exemplary view showing an embodiment according to another configuration of the power generation system using the present invention floating body

In order to achieve the above object, the present invention will be described in detail with reference to the accompanying drawings.

In constructing a power generation system using a floating body,

A plurality of floating bodies filled with a predetermined gas therein;

A moving passage having a predetermined angle inclined such that the floating body moves by itself, and a floating body injection hole is formed at an upper end portion to inject the floating body;

A loading passage connected to a lower end of the moving passage to form an inclined angle such that the floating body is loaded in multiple stages, and an air inlet hole for introducing air into the upper end portion connected to the lower end of the moving passage;

An air chamber that accumulates the air supplied by the air supply device and is connected to communicate with the air inlet hole of the loading passage and discharges the accumulated air to the loading passage through the air inlet hole;

A water storage tank connected to the lower end of the loading passage and accommodating water storage therein, the water storage tank configured to rotate as the floating body leaked from the lower end of the loading passage rises;

A turning point for partitioning between a loading passage on which the buoyancy body is loaded and a storage tank in which buoyancy occurs;

A generator that is connected to the rotary car and the connecting means of the water storage tank to generate power;

A water level sensor for sensing the water level of the water stored in the water storage tank;

And a controller for controlling the air supply device based on the value applied by the water level sensor.

At this time, to configure the plurality of rotating plate to rotate the opening and closing of the moving passage to rotate by the hinge inside the moving passage to partition the moving passage into a predetermined equal portion;

Forming a through hole to allow air to pass through the rotating plate configured in the moving passage;

And a plurality of pivot plates configured to rotate the opening and closing of the moving passage by a hinge inside the moving passage so as to further include an on / off valve configured to open and close the through hole.

Forming a through hole to allow air to pass through the rotating plate configured in the moving passage;

A sliding door configured to open and close the through hole;

The sliding door may further comprise a door drive for transmitting a driving force to open and close the through-hole.

And the storage tank is accommodated in the upper portion of the storage tank, and seated the floating body from the upper portion of the storage tank, and the second storage tank composed of a caterpillar rotor that rotates as the seated floating object rises and ;

One side of the second reservoir tank is connected to the pulley of the caterpillar rotary car, and driven by the rotation of the caterpillar rotary car can be configured to further include a pneumatic holding device for supplying air to the air chamber to maintain the air pressure in the air chamber .

In this case, the air pressure sensor may be further included in the loading passage to detect the air pressure inside the loading passage and control the pneumatic holding device based on the value.

In addition, the injured body deviated from the uppermost turn wheel may form an induction angle that allows the injured body to enter the moving path by the speed caused by the floating force.

At this time, when the floating body is completely floated to the low water surface in the upper portion of the reservoir tank may be configured to include an air nozzle for injecting the air to guide the floating body to the moving passage.

Looking at the detailed configuration and the embodiment of the present invention with reference to the drawings as follows.

The power generation system using the floating body of the present invention is composed of a floating body 100 that floats in water and a power generation unit body A that transfers, flows out, and generates the floating body 100.

The floating body 100 is formed in a hollow cylinder or sphere, it is preferable to be configured by filling a predetermined gas inside the floating body (100).

In addition, the number of the floating body 100 is preferably composed of a plurality of so as to have a load that can be locked at least the floating body 100.

The power generating device main body A has a moving passage 200 for transporting the floating body 100, a loading passage 300 for loading and flowing out of the floating body 100, and a rotary car according to the floating of the floating body 100. 410 is rotated to generate a water storage tank 400, and the air chamber 500 for adjusting the water level of the water stored in the water storage tank (400).

The moving passage 200, the loading passage 300, the storage tank 400, and the air chamber 500 will be described in more detail as follows.

First, as illustrated in FIG. 1, the moving passage 200 configured at the uppermost portion of the power generating apparatus main body A is configured to form a predetermined angle so that the floating body 100 is rolled and transported by its own weight.

In this case, the floating body injection hole 210 is formed at the upper end of the front end of the moving passage 200, and the floating body 100 is introduced through the floating body injection hole 210 to supply and replenish the first time.

And it is configured by connecting the upper end of the front end of the loading passage 300 to the lower end of the rear end of the moving passage (200).

Therefore, the floating body 100 introduced through the floating body injection hole 210 by the above configuration is rolled and transferred to the loading passage 300 by its own weight along the inclined moving passage 200.

In addition, the moving passage 200 is formed by at least a plurality of rotary plate 220 to rotate by the hinge 221 to open and close the moving passage 200 to minimize the pressure loss of the air chamber and the loading passage. 200 is divided into predetermined equal parts.

The rotating plate 220 is configured to open only in the direction in which the floating body 100 moves (backward of the moving passage), and the floating plate 100 entering along the moving passage 200 collides with the rotating plate. Rotating the hinge 220 to the shaft 220 opens the moving passage 200.

When the floating body 100 passes through the rotating plate 220 along the open moving passage 200, the floating body 100 returns to its own weight by the weight of the rotating plate 220.

At this time, the greater the inclination angle of the moving passage 200, the greater the moving distance of the floating body 100, the higher the acceleration, and the greater the acceleration, the easier the rotation of the rotating plate 220.

In this case, when the last rotary plate 220 is opened, at least one of the previous rotary plate 220 is necessarily closed, thereby minimizing pressure loss of the loading passage 300 and the air chamber 500.

And as shown in Figure 2 of the rotary plate 220 is formed in the moving passage 200 inside the rotary plate 220 configured at the end of the moving passage 200 through the through hole 222 through which air can pass To form, the through hole 222 constitutes an opening and closing valve 230 for opening and closing the through hole 222.

The on-off valve 230 is configured such that the push rod 231 supported by the return spring 232 passes through the through hole 222 to protrude forward, and at the rear end thereof, an open / close plate 233 for sliding the through hole 222. Configure.

Accordingly, when the floating body 100 moves along the moving passage 200 to the loading passage 300, the floating body 100 pushes the push rod 231 of the opening / closing valve 230 to retract the opening and closing plate 233. The through hole 222 formed in the 220 is opened to easily rotate the rotary plate 220 having the floating body 100 formed at the last end through the last compartment of the mobile passage 200 and the loading passage 300. Do it.

In addition, as shown in FIG. 3, the rotary plate 220 configured at the end of the rotary plate 220 formed in the moving passage 200 forms a through hole 222 through which air can pass, and the through hole ( 222 constitutes a sliding door 240 that is slid to open and close the through hole 222, and constitutes a door driving hole 241 for driving the sliding door 240, and is configured inside the compartment formed at the last end. Thus, as the floating body 100 enters the compartment at the end, the switch 242 is configured to apply a drive signal to the door driving hole 241, so that the floating body 100 moves through the passage 200. In the case of being transferred to the loading passage 300 in the rear end of the moving passage 200 and the air pressure of the loading passage 300 to be similar to each other by the rotary plate 220 configured to the last floating body 100 It can also be configured to easily rotate.

The loading passage 300 forms an inclination of a predetermined angle so that the floating body 100 moved along the moving passage 200 is stacked in multiple stages, and is configured to diagonally cross the inside of the power generator body A. FIG.

The partitioned air chamber 500 is formed by the loading passage 300 formed by diagonal lines in the power generator device A. As shown in FIG.

An air inlet hole 310 connected to the air chamber 500 is formed at an upper end of the loading passage 300, so that air received in the air chamber 500 flows into the loading passage 300. .

The air chamber 500 accumulates the air supplied by the driving of the air supply device 510 to form a predetermined air pressure. In this case, the loading passage 300 has an air inlet hole communicating with the air chamber 500. 310 is formed so that the air pressure of the air chamber 500 flows into the loading passage 300 through the air inlet hole (310).

And to the lower end of the rear end of the loading passage 300 is connected to the storage tank (400).

At this time, the lower part of the storage tank 400 is connected to the lower end of the loading passage 300 to form a 'V' type to form a turning point (point of buoyancy of the injured body), the storage tank 400 ) Is configured on one side of the power generator body (A), the moving passage 200, the loading passage 300, the water storage tank 400 is connected to each other to form a '▷' type.

The storage tank 400 accommodates a predetermined amount of water and constitutes a rotary car 410 that rotates the rotary shaft 411 about its axis.

Storage water contained in the storage tank 400 may be mixed with the antifreeze, if necessary, to prevent freezing and increase the buoyancy of the floating body (100).

The rotor wheel 410 is formed by a plurality of tow 412 radially with respect to the rotary shaft 411 of the rotor wheel 410 to form a plurality of seating portion, the seating portion in the loading passage 300 The leaked floating body 100 is seated.

And it is preferable to form in the form of minimizing the resistance of the water when the rotary difference 410 rotates.

In addition, the generator 600 is configured at one side of the storage tank 400, and is connected to the rotary car 410 of the water storage tank 400 by a connecting means such as a belt or a chain, so that the rotary car 410 rotates. It develops by interlocking rotation.

Therefore, the loading passage 300 and the storage tank 400 is connected to the 'V' type floating body 100 in a multi-stage in the loading passage 300 to form a turning point (point of buoyancy of the injured body). When the stack is loaded, the loads of the floating bodies 100 are pushed one by one by the quantity of the floating bodies 100 loaded from the floating bodies 100 existing in the lowermost layer, and are discharged into the water storage tank 400, and the leaked floating bodies ( 100 is seated on the seating portion of the rotary car 410 configured in the storage tank 400, the rotary car 410 is rotated as the floating object 100 rises by the buoyancy of the floating object 100.

In addition, the water level sensor 420 is configured under the loading passage 300 to sense the water level of the water stored in the water storage tank 400 and apply the value to the controller 700.

The controller 700 is electrically connected to various sensors and switches to control the overall operation of the power generation system. The controller 700 controls the driving of the air supply device 510 based on the value applied by the water level sensor 420.

And the present invention, as shown in Figure 3 constitutes a second reservoir tank 400a constituting the caterpillar rotary car (410a) on the top of the reservoir tank 400, the caterpillar rotation on one side of the second reservoir tank 400a The pneumatic holding device 800 may be connected to the pulley of the car 410a to exert air pressure on the rotation of the rotating shaft.

In general, an air supply device such as a compressor is composed of a motor part for generating a driving force, a cylinder part for supplying air in a piston reciprocating motion by the driving force of the motor, and a tank part for storing air supplied from the cylinder part.

 However, the pneumatic holding device 800 is composed of a cylinder portion for supplying air to the piston reciprocating movement by receiving the rotational force of the rotary shaft 410a.

Therefore, the pneumatic holding device 800 must be connected to the rotating shaft 411a of the rotary car 410a configured inside the second water storage tank 400a, and the floating body 100 leaked from the water storage tank 400 is formed. The pneumatic holding device 800 is driven as the caterpillar rotor 410a is rotated as the floating body 100 seated on the seating portion and the floating body 100 seated on the seating portion is injured. ) To supply air pressure.

In this case, an air pressure sensor 320 may be configured inside the loading passage 300 to detect the air pressure of the loading passage 300 and control the pneumatic holding device 800 based on the value.

Therefore, the air supply device 510 supplies the air pressure necessary only for the first operation of the power generation system, and supplies the air pressure from the pneumatic holding device 800 after the power generation system is driven.

And the upper part of the reservoir tank 400 is configured by the air nozzle 430, if the floating body 100 is completely floated to the reservoir surface by spraying air may be configured to guide the floating body 100 to the moving passage 200 have.

The air injected from the air nozzle 430 may be supplied from the air chamber 500.

In the present invention by the above configuration, the floating body 100 introduced into the moving passage 200 is moved to the stacking passage 300 along the moving passage 200 and stacked in multiple stages, and stacked in multiple stages in the stacking passage 300. The wounded bodies 100 are discharged from the loading passage 300 to the storage tank 400 one by one by the load, and the floating bodies 100 leaked from the loading passage 300 are configured to rotate inside the storage tank 400. It is seated on the seating portion of the car 410 by rotating the rotary car 410 with the lifting force of the floating body 100 to be made power generation.

In addition, the floating body 100 fully floated on the storage surface accommodated in the storage tank 400 is supplied again to the moving passage 200.

More specifically, first, when a plurality of the injured body 100 is put through the floating body injection hole 210 of the mobile passage 200 configured at the top of the power generating unit body, the injured body 100 along the moving passage 200 Move to the loading passage (300).

The floating body 100 moves along the inside of the moving passage 200 because the moving passage 200 achieves a predetermined inclination angle.

At this time, the moving passage 200 constitutes a rotating plate 220 partitioning the moving passage 200 into predetermined equal parts, and is injured by the acceleration of the floating body 100 moving along the inclined moving passage 200. The sieve 100 moves to the loading passage 300 while opening the moving passage 200 by rotating the pivoting plate 220 around the hinge 221 by the collision with the pivoting plate 220.

And as the air supply device 510 is driven by receiving external power, the air chamber 500 is filled with air to provide air pressure, and an air inlet hole connecting the loading passage 300 and the air chamber 500 ( The air is discharged through 310 and the floating body along the loading passage 300 is lowered to the designated lowest point of the loading passage 300 by the filled air pressure, so that the floating body 100 is stored by the buoyancy of the reservoir. The water tank 400 to prevent the floating body 100 does not flow smoothly.

In addition, the upper end of the front end of the loading passage 300 and the lower end of the rear end of the moving passage 200 are connected to each other, and the pivoting plate 220 is configured at the lower end of the moving passage 200 so that the inside of the loading passage 300 is provided. The air pressure of the high rises the water level of the low reservoir along the loading passage 300 by the air pressure.

In this case, the air supply device 510 is not driven indefinitely, and the water level sensor 420 configured in the water storage tank 400 senses the water level of the water storage tank 400 and applies the value to the controller 700. , The control unit 700 controls the driving of the air supply device 510 based on the value applied from the water level sensor 420, the water stored along the loading passage 300 is pushed by the air pressure to the water storage tank 400 When the water level of the water storage tank 400 is lowered and reaches a specified level, the controller 700 stops driving the air supply device 510. When the water level is higher than the specified water level, the controller 700 controls the air supply device 510. Control to drive

In addition, the second storage tank 400a constituting the caterpillar rotary car 410a is formed on the storage tank 400, and the rotary shaft is connected to the rotating shaft of the caterpillar rotary car 410a on one side of the second water storage tank 400a. The pneumatic holding device 800 exerts a pneumatic pressure on the rotation of the vehicle, and the floating body 100 leaked from the water storage tank 400 is seated on the seating portion of the caterpillar rotary car 410a, and the floating body seated on the seating portion. As the 100 rises, the caterpillar rotor 410a is rotated, and the pneumatic holding device 800 is driven to supply air pressure to the air chamber 500 to control the water level of the reservoir at all times to maintain the designated water level.

At this time, the air pressure sensor 320 is configured inside the loading passage 300 to detect the air pressure of the loading passage 300 and control the pneumatic holding device 800 from the controller 700 based on the value.

In addition, when the air supply device 510 and the pneumatic holding device 800 are driven, when air is introduced into the loading passage 300 and the air pressure of the loading passage 300 is increased, the air pressure of the loading passage 300 is moved to the moving passage ( The rotary plate 220 configured to rotate only in the moving direction of the floating body 100 may be unable to be opened smoothly because it is relatively higher than the air pressure of the 200, in order to overcome this problem, the floating body 100 has a loading passage 300. Rotating diaphragm configured at the end of the moving passage 200 forming the boundary between the moving passage 200 and the loading passage 300 to adjust the air pressure of the moving passage 200 and the loading passage 300 to be the same when entering the A through hole 222 is formed in the 220, and an opening / closing valve 230 or a sliding door 223 for opening / closing the through hole 222 is formed in the rotating plate 220, and the floating body 100 moves through the moving passage ( Opening valve 230 or sliding door 223 when the last compartment of the compartment of 200) Sea passage 222, the loading passage 300 and the moving passage 200 is in communication with each other, the floating body 220 is rotated smoothly by rotating the rotary plate 220 configured at the end to move to the loading passage 300 do.

In addition, when the floating body 100 loaded in multiple stages on the loading passage 300 flows out into the storage tank 400 by the loading load, the floating body 100 is mounted on the seat of the rotary car 410 configured inside the storage tank 400. ) Is seated, the rotor 410 is rotated by the floating force of the floating body 100 seated on the seating portion of the rotor 410, the rotary shaft 411 of the rotor 410 as a connecting means Connected generators run and generate power.

And when located at the top dead center of the rotary wheel 410 of the floating body 100 seated on the seating portion of the rotary car 410 is separated from the seat by the floating force of the floating body 100 on the surface of the reservoir Induced to be injured, to be subsequently pushed by the injured body 100, the injured body 100 is moved back to the movement path 200, or guide the injured body into the movement path by the speed due to the floating force It moves along the angle and is pushed by the air injected by the air nozzle 430 to move to the movement passage 200.

As described above, it is possible to continuously generate power by circulation of the floating body 100.

The present invention is not limited to the above embodiments, and various changes can be made by any person having ordinary knowledge in the field of the present invention without departing from the gist of the present invention as claimed in the following claims. It will be said that there is a technical spirit of the present invention to the extent.

As an example, as shown in FIG. 4, the storage tank in which the actual power generation is performed may be configured in multiple stages, and the power generation efficiency may be increased by connecting the overall configuration of the present invention with a force, and in the present invention, Anyone with ordinary knowledge in the field to which the invention belongs, such as the number, the length of the moving passage and the loading passage, the inclination angle, and the like, may be said to have the technical spirit of the present invention.

♠ Explanation of Main Drawing Code ♠
100: floating body 200: moving passage 210: floating body injection hole
220: rotating plate 221: hinge 222: through hole
230: on-off valve 231: push rod 232: return spring
233: opening and closing plate 240: sliding door 241: door drive
242: switch 300: loading passage 310: air inlet hole
320: air pressure sensor 400: water tank 410: rotary car
411: rotating shaft 412: tow 420: water level sensor
430: air nozzle 500: air chamber 510: air supply device
600: generator 700: control unit 800: pneumatic holding device

Claims (6)

In constructing a power generation system using a floating body,
A plurality of floating bodies filled with a predetermined gas therein;
A moving passage having a predetermined angle inclined such that the floating body moves by itself, and a floating body injection hole is formed at an upper end portion to inject the floating body;
A loading passage connected to a lower end of the moving passage to form an inclined angle such that the floating body is loaded in multiple stages, and an air inlet hole for introducing air into the upper end portion connected to the lower end of the moving passage;
An air chamber that accumulates the air supplied by the air supply device and is connected to communicate with the air inlet hole of the loading passage and discharges the accumulated air to the loading passage through the air inlet hole;
A water storage tank connected to the lower end of the loading passage and accommodating water storage therein, the water storage tank configured to rotate as the floating body leaked from the lower end of the loading passage rises;
A turning point for partitioning between a loading passage on which the buoyancy body is loaded and a storage tank in which buoyancy occurs;
A generator that is connected to the rotary car and the connecting means of the water storage tank to generate power;
A water level sensor for sensing the level of water stored in the loading passage;
And a control unit for controlling the air supply device based on the value applied from the water level sensor.
The method according to claim 1,
A plurality of pivot plates configured to rotate by a hinge in the moving passage to open and close the moving passage so as to divide the moving passage into predetermined equal parts;
Forming a through hole to allow air to pass through the rotating plate configured in the moving passage;
The power generation system using a floating body, characterized in that further comprising the on-off valve for opening and closing the through hole.
The method according to claim 1,
A plurality of pivot plates configured to rotate by a hinge in the moving passage to open and close the moving passage so as to divide the moving passage into predetermined equal parts;
Forming a through hole to allow air to pass through the rotating plate configured in the moving passage;
A sliding door configured to open and close the through hole;
The sliding system is a power generation system using a floating body, characterized in that it further comprises a door drive for transmitting a driving force to open and close the through hole.
The method according to claim 1,
A second reservoir tank configured to accommodate a reservoir in the upper portion of the reservoir tank, and to seat a float discharged from an upper portion of the reservoir tank, and to configure a caterpillar rotary wheel that rotates as the seated float rises;
And a pneumatic holding device connected to one side of the second reservoir tank and connected to a rotating shaft of the caterpillar rotor to drive air as the caterpillar rotor rotates to supply air to the air chamber to maintain air pressure in the air chamber. Power generation system using floating body.
The method of claim 4,
And a pneumatic sensor further included in the loading passage so as to detect the air pressure inside the loading passage and control the pneumatic holding device based on the value thereof.
The method according to claim 1,
Power generation system using an injured body comprising an air nozzle for guiding the injured body to the moving passage by injecting air when the injured body is completely floated to the low water surface in the upper portion of the reservoir tank.

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