KR20050022751A - Method for circulating water by head impact load pressure of water and a buoyant generating apparatus capable of semipermanently generating electric energy - Google Patents

Abstract

PURPOSE: A method for circulating water by head impact load pressure of water and a buoyant generating apparatus is provided to generate electric energy by operating the generating apparatus through the force rising by buoyancy and to efficiently use natural energy at low investment cost. CONSTITUTION: A method for circulating water by head impact load pressure of water comprises a step of gathering water in a water storage plate(19) while outside water flows in water storage tanks(s) and opening the water storage plate, to make the gathered water(33) fall down; a step of discharging water in valve containers(p) to the outside by the pressure of impact by load produced while gathered water falls down to the valve containers; a step of closing a water reaction intercept plate(20) when water completely falls down to the valve containers, and closing the water storage plate and opening the water reaction intercept plate after the valve containers are isolated from outer water pressure while a valve(21) closes; and a step of gathering water to the water storage plate while outside water flows in the water storage tanks and opening the water storage plate to make the gathered water fall down.

Description

Water circulation method and buoyancy power generation device by water drop impact load pressure

The present invention relates to a water circulation method and a buoyancy power generation device according to the water drop impact load pressure, and more specifically, it is possible to produce electric energy semi-permanently by installing a power generation device that generates power of buoyancy using the water circulation method installed in the water. The present invention relates to a water circulation method and a buoyancy power generation apparatus by impact load pressure.

Most of the conventional power generation facilities use fossil fuels to cause global warming and the global environmental pollution is serious, and researches on alternative energy development are actively conducted to make the earth a pleasant environment.

Currently, electric energy and heat energy are produced using solar power and small hydro power, but using natural energy such as solar heat and wind power requires a lot of facility investment cost and steady research and development. Follow.

Therefore, there is a need for a method that can use natural energy efficiently with a power generation device that requires relatively little facility investment cost and is easy to install.

The present invention has been made to solve the above problems, the present invention is installed in the water storage tank and the water storage tank under the water of a certain depth, and by installing a buoyancy bucket on both sides of the water storage tank, The buoyant tank with volume fills the water at the water surface and reaches the joint pipe installed at a certain depth by propeller and self-weight, and moves the water contained in the buoyant tank to the water storage tank connected by the pipe pipe. By using the water circulation method by pressure, the empty buoyancy cylinder can produce electric energy by operating the power generator with the force raised by the buoyancy, and provide the power generator which can use the natural energy efficiently with relatively low investment cost. It is.

The configuration of the present invention for achieving the above object is installed in the water having a certain depth, the outside water is introduced into the water storage tank to collect the water in the water storage plate, the water storage plate and the collected water falls and ; The pressure of the impact caused by the load that the collected water falls into the valve barrel causes the valve to heat and discharge the water in the valve barrel to the outside: the falling water completely falls into the valve barrel and at the same time closes the water repellent blocking plate and the valve is closed. Closing the water storage plate after the valve barrel is blocked with external water pressure, and opening the water recoil blocking plate; External water flows into the water storage tank, collects water in the water storage plate, and opens the water storage plate to repeat the step of dropping the collected water, thereby circulating water due to a drop.

A first water inflow step of opening and closing the valve to the first buoyancy cylinder having a constant volume installed in the water to introduce water and discharge the internal air to the outside; A first buoyancy cylinder descending step in which the first buoyancy cylinder into which the water is introduced is lowered from the surface of the water by the own weight and the propeller and docked at a joint pipe installed at a predetermined depth; After the first buoyancy cylinder is docked to the joint pipe, opening and closing the valve to collect the water in the water storage tank connected to the pipe of the water inside the first buoyancy tube to discharge the valve to the valve, air to the first buoyancy cylinder A first water discharge step of supplying; A first buoyancy cylinder rising step of generating electric energy by driving a generator by using a force that is raised while the first buoyancy cylinder filled with air is raised by buoyancy; and a second buoyancy cylinder identical to the first buoyancy cylinder is A second water discharging step of opening and closing a valve in a docked state in a joint pipe to collect water in the second buoyancy bucket and discharge the water into the valve reservoir, and supply air to the second buoyancy bucket; A second buoyancy cylinder rising step of producing electric energy by driving a generator by using a force that is lifted by the buoyancy while the second buoyancy cylinder filled with air only is raised: a valve in which the second buoyancy cylinder is located on the water surface A second water inflow step of opening and closing the air to discharge the internal air to the outside and introducing water into the interior; The second buoyancy cylinder into which the water is introduced is lowered from the water surface by the self-weight and propeller, characterized in that it comprises a second buoyancy cylinder lowering step that is docked to the joint pipe.

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

Figure 1a is a plan view of the water circulation method by the water drop impact load pressure according to the present invention, Figure 1b is a front view of the water circulation method by the water drop impact load pressure according to the present invention, Figure 1c is a water according to the present invention It is a side view of the water circulation method by the drop impact load pressure,

Figure 2a is a front view of the water circulation method and the buoyancy generator according to the water drop impact load pressure according to the present invention, Figure 2b is a side view of the water circulation method and buoyancy power device by the water drop impact load pressure according to the present invention, Figure 2c is a plan view of the water circulation method and the buoyancy generator according to the water drop impact load pressure according to the present invention, Figures 3 to 7 is a water circulation method and the buoyancy power device of the water drop impact load pressure according to the present invention Front view showing the operation process.

Water circulation method and buoyancy power generation apparatus according to the water drop impact load pressure of the present invention is installed in the water having a certain depth, the external water flows into the water storage tank to collect the water in the water storage plate, the water storage plate The steps of opening and dropping the collected water, the heat of the valve due to the pressure of the impact of the collected water falling into the valve barrel, and discharging the water in the valve barrel to the outside; Closing the blocking plate, the valve is closed and the valve barrel is blocked with external water pressure, the water storage plate is closed, opening the water recoil blocking plate, and the external water flows into the water storage tank to collect water in the water storage plate Repeatedly, including the step of opening the water storage plate and the collected water falls, characterized in that the collected water is circulated at the pressure of the impact falling into the valve barrel.

The first water inflow step of opening and closing the valve to the first buoyancy cylinder having a constant volume installed in the water to introduce water and discharge the internal air to the outside, and the first buoyancy cylinder into which the water is introduced And a first buoyancy cylinder descending step which is lowered from the surface of the water by the propeller and docked to the joint pipe installed at a predetermined depth, and after the first buoyancy cylinder is docked to the joint pipe, opening and closing a valve to open the first buoyancy cylinder. The first water discharge step for collecting the water in the water storage tank connected to the pipe pipe and discharged to the valve barrel, and supplying air to the first buoyancy cylinder, and the first buoyancy cylinder filled with the air is raised by buoyancy While raising the first buoyancy cylinder to generate electrical energy by driving the generator by using the rising force, and the second buoyancy cylinder same as the first buoyancy cylinder is docked to the joint pipe in the state A second water discharge step of closing the water of the second buoyancy cylinder to collect the water in the water storage tank to discharge the valve, and supplying air to the second buoyancy cylinder, and the second buoyancy cylinder filled with the air only buoyancy The second buoyancy cylinder rising step of producing electric energy by driving the generator by using the force rising while rising, and opening and closing the valve while the second buoyancy cylinder is located on the water surface to discharge the air inside And a second water inflow step of introducing water into the interior, and a second buoyancy cylinder descending step in which the second buoyancy cylinder into which the water is introduced is lowered from the surface of the water by self weight and a propeller and docked to the joint pipe. .

In addition, as an embodiment of the circulation method and the power generation apparatus for realizing the water circulation method and the buoyancy power generation method by the water drop impact load pressure, it is installed on the ground perpendicular to the water from the frame 11 on the water surface, A plurality of frames 11 provided with a guide 12 in the installation, and the first 1/2/3 water storage tanks s1, s2, s3 are installed in the center of the installed frames 11, and the installed 1/2 / 3 Under the water storage tanks s1, s2 and s3, install the 1/2/3 valve barrels p1, p2 and p3 on both sides of the first and second buoyancy cylinders k1 and k2.

The 1/2/3 water storage tank (s1, s2, s3) and the 1/2/3 valve barrel (p1, p2, p3) in the above to the water storage tank (s), valve plate (p) I will simply write

When the water storage tank (s) installed in the above is a double wall and the collected water (33) in the water storage tank (s) falls below the air between the double wall, through the air outlet 32 to discharge to the outside, the water The water storage plate 19 is installed in the storage tank s, and the water storage plate 19 collects and drops water in the water storage tank s, and the water storage plate 19 opens, closes, and the like. At this time, the wire 18 is connected to the water storage plate 19 and the motor 18 so that the stopper 17 mounted on the motor 16 is fixed, and the stopper 17 operates so that the wire 18 is operated. The water storage plate 19 is opened momentarily by the load of water collected in the water storage plate 19 while being released, and when the open water storage plate 19 is closed, the motor 16 is operated to operate the water storage plate 19. When the motor is pulled up completely, the motor 16 is stopped and the stopper 17 is operated to fix the water storage plate 19. As described above, the water storage plate 19 is Collect water in the water storage tank (s) and drop water into the valve barrel (p). The water recoil blocking plate 20 is installed between the water storage tank (s) and the valve barrel (p), and the water recoil blocking plate 20 is mounted with a motor and a spring, and the motor is opened and closed by a spring. Operation, the water rebound blocking plate 20 is the water 33 collected in the water storage tank (s) is completely separated from the water through the valve (p) and at the same time the water rebound blocking plate 20 to close the collected water (33) It acts to block this recoil. The valve p provided under the water storage tank s is blocked by external pressure and the valve p by the valve 21 attached to all sides, and the valve 21 attached to the valve p. ) Is spring-loaded on the valve (p), like the valve in human blood vessels, and inside the valve barrel (p) due to the impact pressure of the water (33) collected from the water storage tank (s) in the valve vessel (p) The pressure of the water is high, the valve 21 is heat, the water is discharged to the outside, when the water pressure is lowered the valve 21 is closed, the external water does not flow back.

In the above case, if the pressure in the valve (p) is high, such as the valve in the human heart and blood vessels, the water in the valve (p) is discharged to the outside through the valve (21), and the hydraulic pressure is reduced. When lowered, the valve 21 is closed to block backflow of external water.

According to the difference in the height of the valve barrel (p) and the water storage plate 19 there is a difference in the impact pressure of the water falling on the valve barrel (p). In other words, when the space between the water storage plate 19 and the valve barrel p is high, the impact pressure is high, and when the height is low, the impact pressure is low. Therefore, by installing a water storage plate 19 having a higher impact pressure of water falling into the water storage tank s than the external pressure of the valve barrel (section A) (section A), the water is used in the water using the impact load pressure of the drop as described above. It is characterized by being able to circulate.

As an embodiment for realizing the power generation device by the force of buoyancy by using the above features, it is installed on the ground vertically in the water vertically from the upper frame 11 on the water surface, a plurality of guides provided on the inside A first frame having a frame 11 and having rollers 13 at both sides to move along the guides 12 of the plurality of frames 11 and having a space in which water and air can be built; The buoyancy tank (k1, k2) is the first and second buoyancy cylinder (k1, k2) is installed on both sides of the water storage tank (s) that can discharge and circulate the water, the pipe pipe connected to the water storage tank (s) ( 14) and the joint pipe 22 are integrally installed at a predetermined depth, the first and second buoyancy cylinders k1 and k2 are lowered, docked with the joint tube 22, and the first and second buoyancy cylinders k1 and k2. A center stage 25 for discharging the internal water of the inner side, and having a plurality of protrusions 26 formed on the first and second buoyancy cylinders k1 and k2 to suck and discharge air; It consists of a lever 27 installed in the upper frame 11 to interfere with the seesaw movement 36, and a hydraulic cylinder 28 is connected to one side of the lever 27 and the rod is driven, the hydraulic cylinder ( 28 and the hydraulic cylinder 28 is configured to be connected to the hydraulic hose.

The first and second buoyancy cylinders k1 and k2 are lowered by their own weight in water, and thus, the first and second buoyancy cylinders k1 and k2 may further include propellers 31 as propellants on both sides to speed up the descending speed. When the cylinders k1 and k2 are moved up and down, the hydraulic motor 29 is operated by the hydraulic force of the hydraulic cylinder 28 driven to interfere with the center stage 25 to operate the generator.

Then, air intake and discharge valves 24a and b through which air flows in the upper portion of the first and second buoyancy cylinders k1 and k2 are installed in the center bar 25 and the water flows in the lower portion of the valve 23a. b) is internally docked and connected to the joint pipe (22).

The power generation device configured as described above is just one embodiment for realizing the water circulation method and the buoyancy power generation device according to the water drop impact load pressure according to the present invention, the corrosion resistance of each component of the water, the water storage tank (s ), The water 33 collected in the valve barrel (p) drops, the water rebound barrier 20 is instantaneously operated, the water pressure blocking ability by the valve 21, the water storage plate (19) A structure for simultaneously lowering the vacuum 33, the structure of the generator for producing electric power by using the rising force of the center band 25, when the first / second buoyancy cylinder (k1, k2) is raised, each joint The ability to open and close the pipe 22, the valve unit, the above operation can be variously modified by the developer as an automated system, etc. The detailed description will be omitted, in the present invention below water drop impact based on one embodiment Method of Water Circulation by Load Pressure and Operation of Buoyancy Generator The dragons and the effects will be described with reference to the drawings.

The frame 11 is installed on the ground vertically from the upper frame 11 in the water where there is water, and the water storage tank (s), the valve barrel 21 in the center where a plurality of frames 11 are installed. The frame 11 in which the guide 12 is installed is installed on both sides of the installed water storage tank s, and the buoyancy cylinders k1 and k2 are installed so that the roller 13 flows up and down by the guide 12. ), The roller 13 is attached and formed integrally.

Water circulation method by the water drop impact load pressure installed as described above is open the valve 23 in the state in which the water storage plate 19 installed in the water storage tank (s) as shown in Fig. When the water 33 introduced into the storage tank s collects water, the valve 23 is closed when water is collected, and the collected water 33 is being dropped by opening the water storage plate 19 as shown in FIG. 4. As shown in FIG. 5, the collected water 33 falls into the valve barrel p, and the pressure of the water in the valve barrel p increases, so that the valve 21 is heat, and the water in the valve barrel p is being discharged to the outside. As shown in Fig. 6, the collected water 33 completely falls into the valve barrel p, and at the same time, the water rebound blocking plate 20 is closed to block the rebound of the dropped water, and then the valve 21 is closed as shown in FIG. 20 is open and the water storage plate 19 is closed to open the valve 23 as shown in Figure 1 to collect the water in the water storage tank (s) while repeating the operation as described above It is a method of circulating water in water, and can generate electricity by installing a power generation device using the method as described above, and by installing the water storage plate 19 near the water surface (section A) It is possible to prevent red tide diffusion in the sea and prevent green algae in the river by making and moving like a barge in the river.

In the water circulation method and the buoyancy power generator by the water drop impact load pressure using the above method, water is supplied to the first and second buoyancy cylinders k1 and k2 at the first start, as shown in FIG. The cylinder k1 is located directly below the water surface, and the second buoyancy cylinder k2 is docked on one side of the installed joint pipe 22.

In the above state, the second buoyancy cylinder k2 moves the water through the joint pipe 22 and the pipe pipe 14 to the water storage tank s, and the air is supplied to the air suction discharge valve 24a. Inflow.

After the water is discharged and air is introduced, each valve is closed to block the inflow of the surrounding water.

The water discharged from the second buoyancy cylinder (k2) to the water storage tank (s) in the water is collected as shown in Figure 3 by the water storage plate 19, the collected water 33 is stored as shown in Figure 4 When the plate 19 is heated and the collected water 33 falls, the air below is discharged to the air outlet 32, and when the collected water 33 falls on the valve p as shown in FIG. As the pressure increases, the valve 21 heats and the water in the valve barrel p is discharged to the outside, and the collected water 33 completely falls into the valve barrel p as shown in FIG. Closing the 20, the water repellent blocking plate 20 is closed after the valve 21 is closed as shown in Figure 7 and blocked with external water pressure as the water rebound blocking plate 20 is heat, the water storage plate 19 is When the water is collected as described above, the operation is repeated, and when water is collected in each of the first and second water storage tanks s1, s2, and s3, the operation is repeated as described above.

When the water of the second buoyancy cylinder (k2) is discharged and the air is filled, it is separated from the joint pipe (22) and rises by buoyancy, and the upper frame to the center stand 25 of the second buoyancy cylinder (k2) The lever 27 provided in the (11) is interfered to perform a straight reciprocating movement up and down, thereby driving the generator by the hydraulic force generated by driving the hydraulic cylinder 29 connected to the lever 27 Will produce energy.

Since the above process is described as the first cycle process; In the second cycle, the first buoyancy cylinder k1, which is lowered to the joint pipe 22 as opposed to the first cycle, opens and closes the valve 24a and the air suction discharge valve 24a, respectively. (k1) water is discharged into the water storage tank (s), and when the air is filled, the second buoyancy cylinder (k2) for producing electricity ascends to the surface to finish the work of producing electrical energy and At the same time, the first buoyancy cylinder (k1) is separated from the joint pipe 22 to rise by buoyancy while driving the generator in the same manner as the first cycle process to produce electrical energy.

On the other hand, the second buoyancy cylinder k2 opens and closes the valve 23b and the air intake and exhaust valve 24b at the surface of the water to discharge the internal air to the outside, supplies the external water to the inside, and shuts off the valve. It is docked by descending to the joint pipe 22 by the weight and propeller 31.

By repeating the first and second cycles described above, electric energy is continuously produced using buoyancy.

As described above, according to the present invention, it is possible to produce electric energy semi-permanently by using a relatively simple water circulation method and a power generation apparatus installed in the water and a first and second buoyancy cylinders moved by self weight and buoyancy wherever there is water. It has an effect.

Figure 1a is a plan view of the water circulation method by the water drop impact load pressure according to the present invention

Figure 1b is a front view of the water circulation method by the water drop impact load pressure according to the present invention

Figure 1c is a side view of the water circulation method by the water drop impact load pressure according to the present invention

Figure 2a is a front view of the water circulation method and buoyancy power generation apparatus by the water drop impact load pressure according to the present invention,

Figure 2b is a side view of the water circulation method and buoyancy power generation apparatus by the water drop impact load pressure according to the present invention,

Figure 2c is a plan view of the water circulation method and buoyancy power generation apparatus by the water drop impact load pressure according to the present invention,

3 to 7 is a front view showing the operation of the water circulation method and buoyancy power generation apparatus by the water drop impact load pressure according to the present invention,

<Explanation of symbols for main parts of drawing>

s1: 1st water storage tank s2: 2nd water storage tank

s3: third water storage tank p1: first valve barrel

p2: second valve pain p3: third valve pain

k1: first buoyancy cylinder k2: second buoyancy cylinder

11: frame 12: guide

13 roller 14 pipe pipe

15 double wall of the tank 16 motor

17: stopper 18: wire

19: water storage plate 20: water rebound blocking plate

21 valve 22 joint tube

23a, b: valve 24a, b: air intake / discharge valve

25: center stage 26: protrusion

27: lever 28: hydraulic cylinder

29: hydraulic motor 30: generator

31: propeller 32: air outlet

33: collected water

Claims (2)

Installing water in the water storage tank installed in the water having a predetermined depth, collecting water in the water storage plate, and opening the water storage plate to drop the collected water; The pressure of the impact caused by the load that the collected water falls into the valve barrel increases the pressure in the valve barrel, causing the valve to heat, and draining the water in the valve barrel to the outside: the falling water falls completely onto the valve barrel and at the same time shuts off the water recoil. Closing the plate, closing the valve to close the water reservoir after the valve is blocked with external water pressure, and opening the water recoil blocking plate; External water flows into the water storage tank, collects water in the water storage plate, and opens the water storage plate and repeats the step of dropping the collected water. A first water inflow step of opening and closing the valve to the first buoyancy cylinder having a constant volume installed in the water by the method of claim 1 to introduce water and to discharge the internal air to the outside; A first buoyancy cylinder descending step in which the first buoyancy cylinder into which the water is introduced is lowered from the surface of the water by the own weight and the propeller and docked at a joint pipe installed at a predetermined depth; After the first buoyancy cylinder is docked to the joint pipe, opening and closing the valve to collect the water in the water storage tank connected to the pipe of the water inside the first buoyancy tube to discharge the valve to the valve, air to the first buoyancy cylinder A first water discharge step of supplying; A first buoyancy cylinder rising step of generating electric energy by driving a generator by using a force that is raised while the first buoyancy cylinder filled with air is raised by buoyancy; and a second buoyancy cylinder identical to the first buoyancy cylinder is A second water discharging step of opening and closing the valve in a docked state in the joint pipe to collect the water in the second buoyancy cylinder and collect the water in the water storage tank and discharge the water into the valve barrel, and supply air to the second buoyancy cylinder; A second buoyancy cylinder rising step of producing electric energy by driving a generator by using a force that is raised while the second buoyancy cylinder filled with the air is lifted by buoyancy; A second water inflow step of opening and closing the air to discharge the internal air to the outside and introducing water into the interior; And a second buoyancy tube descending step in which the second buoyancy cylinder into which the water is introduced is lowered from the surface of the water by the own weight and the propeller and docked to the joint pipe.