KR100950533B1 - Composition development device that use waterpower and wind force - Google Patents

Abstract

PURPOSE: A combined water and wind generation system is provided to generate electricity from water falling from the higher stories to the lower stories and blades attached to the exterior wall of the building. CONSTITUTION: A combined water and wind generation system comprises a water power generating apparatus(100) and a wind power generating apparatus(200). The water power generator includes a rainwater tank(110) which receives and stores rainwater on the rooftop of a multistory building(10), a vertical pipe(140) with a discharge hopper(130) to regulate the amount of rainwater discharged from the rainwater tank, a water wheel(150) which is rotated with the rainwater falling from the vertical pipe, a water power generator which is connected to the rotary shaft of the water wheel and creates electricity from the rotation of the water wheel, and a water power storage device which stores the electric power created by the water power generator. The wind power generating apparatus comprises a blade(230), a magnetic force generation part, a magnetic power generator, and a magnetic power storage device. The wind power generating apparatuses are arranged in a row on the exterior wall between adjacent stories of the multistory building. The blade is formed of a permanent magnet vertically divided into north and south poles. The magnetic power generator is arranged adjacent to the blade with the same N and S poles and generates electricity from the rotation of the permanent magnet. The magnetic power storage device stores the electric power generated by the magnetic power generator.

Description

Composition development device that use waterpower and wind force}

The present invention relates to a hybrid power generation apparatus using hydraulic power and wind power, and more particularly, a hydroelectric power generation apparatus that stores rainwater in an apartment or a building and generates power using a drop, and a blade that converts rotational force using a building wind as natural energy. The present invention relates to a hybrid power generating apparatus using hydroelectric power and wind power that produce and utilize electric energy in combination with a wind turbine generating power.

In anticipation that the limited resources of crude oil buried underground will soon be exhausted, and now we are researching a lot of alternative energy to use in place of crude oil, and many technologies have been introduced but it is not in the commercialization or mass production stage. Can not do it.

On the other hand, many technologies have been studied and introduced in recognition of the fact that power generation using almost infinite natural energy such as sun, wind and water is the most ideal alternative energy source. Solar power generation technology that obtains electricity, wind power generation technology that obtains electricity by rotating blades by wind force, and up / down motion by the waves of the waves, wave power of the sea, and electricity generation by flowing river Power generation using water is mentioned.

As mentioned above, the conventional photovoltaic power generation has enormous area and expense to install a single facility and system, and since the wind power generation facility is installed separately from the photovoltaic power generation, the area and facility cost of the base for wind power generation are high. On a cloudy day, solar power is not possible, and a day without wind or waves does not occur because there is no way to use the basic facilities to combine solar power, wind power and wave power, and use the flowing river. Individually installed power plants are not complementary because they are highly affected by weather, such as the inability to produce power from wind and wave power plants.

Therefore, when conventional solar, wind, and wave power are installed separately, the power generation efficiency is low, and thus, it is not possible to provide a means for solving the multi-purpose electricity production by alternative energy.

In general, hydroelectric power produces dams by turning the water wheels into the power of falling water.

In this process, the construction cost of the dam, the land submerged and the impact on the environment are all judged, and the hydroelectric dam is constructed by calculating the slope and the area to store water.

However, this series of processes can lead to problems such as a lot of time, manpower, capital and environmental destruction.

However, in this age of energy depletion, there is a conflict in the problem of producing a lot of energy at low cost and without pollution.

In general, wind power generation is a technology that obtains power by converting mechanical energy by rotating a rotor using aerodynamic properties of kinetic energy of air flow. According to the direction of the horizontal and vertical are classified. Normally, large-scale power generation wind turbines of several megawatts (MW) are installed near the top of a mountain or on the beach. The height of the installation is 70 ~ 90m and the length of the rotor blades is about 40m or more. .

Such a conventional device has a problem in that the amount of power generated by the wind power generator is small where the amount of wind is small, so that environmental and location constraints according to the amount of wind can be used to use it.

In addition, there is a problem of increasing the cost of installing a single unit in which the electric generator is coupled to the rotating shaft, and a problem of installation difficulty and cost increase due to the installation of separate control means for controlling multiple single units.

In order to solve the above technical problem, the hybrid power plant using the hydropower and the wind power of the present invention provides hydroelectric power using a drop of rainwater stored in a building or an apartment to generate electric power using rainwater drainage that is simply discarded at present. It is to provide a combined power plant using hydropower and wind power that can utilize the energy that is simply discarded as a power generator.

In addition, the wind power generator generated by the rotation by rotating the blade by providing a blade on the outer wall of the building or apartment in the building or apartment to provide a power generator that can continuously supply power of environmentally friendly and stable quality In providing a device.

In addition, a plurality of wind power generators are arranged in a row to provide an image advertised on the blade to provide a combined power generator using hydro and wind power to maximize the visual advertising effect.

According to the present invention as described above, the hydroelectric generator for generating electrical energy by the rotation of the aberration, the rainwater that is free-falling in the vertical pipe while the rainwater is stored on the roof of the high-rise building to rotate to the runner; Wind power that is supported by a ball joint on the interlayer outer wall of the high-rise building and rotates left and right at a predetermined angle by the flow energy of the building wind in a row along the circumference of the building to produce electrical energy by the rotational force of the rotary blades. A generator; A composite generator configured to accumulate electrical energy generated by any one of the hydroelectric generator and the wind turbine to a power storage device to supply power to a high-rise building using the stored power; It consists of a structure.

Here, the hydroelectric generator, rain water tank for receiving rain water stored on the roof of a high-rise building; A drain pipe for guiding rainwater flowing out of the rainwater tank to one side; A discharge hopper for discharging rainwater to the outside while arbitrarily adjusting a predetermined amount of rainwater collected and discharged from the drain pipe; A vertical pipe connected to the discharge hopper to vertically drop a small amount of rain water downward; Aberration in which rainwater free-falling in the vertical pipe is driven to fall off the runner; A hydroelectric generator connected to the rotary shaft of the aberration and generating by the rotation of the aberration; It includes; a hydroelectric power storage device for storing electric power generated by the hydroelectric generator;

In addition, the wind generator, and the rotating shaft leading to the interior of the high-rise building; A ball joint seated on a joint housing extending from the end of the rotary shaft to protrude to the outer wall to provide a left and right rotation limited to a predetermined angle; A blade which is coupled to the ball joint on an extension line with the rotary shaft and rotates left and right at a predetermined angle in response to wind power of a building wind; A wind generator generating an induced current according to the rotation of the blade; It comprises a; comprising a; wind power storage device for storing the power generated by the wind generator.

According to the present invention as described above, it is possible to use as an energy source of the building itself as a hydroelectric generator that generates rainwater by storing rainwater in an apartment or building.

Therefore, by applying the hydroelectric generator to the aberration rotated by the rainwater drop according to the present invention, there is an effect that it is possible to use the energy is more efficiently,

In addition, there is an effect that the wind power generating device using the blade that converts the rotational force using the building wind, which is a natural energy blowing in the building, without using a large area, can produce and utilize the combined electric energy.

In addition, it is a very useful invention because there is an effect that can be configured to convert the three-dimensional advertising by changing the left and right wind between buildings and increase the visual effect.

The configuration of the present invention for achieving the above object,

A hydroelectric generator that generates electrical energy by rotation of aberrations in which rainwater free-falling into a vertical pipe while falling in a vertical pipe while rotating rainwater is stored on a roof of a high-rise building;

Wind turbines, which are supported by ball joints on the interlayer outer wall of the high-rise building and rotated left and right at a predetermined angle by the flow energy of the building wind, are arranged in a line along the circumference of the building to produce electrical energy by the rotational force of the rotary blades. A generator;

A composite generator configured to accumulate electrical energy generated by any one of the hydroelectric generator and the wind turbine to a power storage device to supply power to a high-rise building using the stored power; It was achieved by providing a composite power plant using hydro and wind power characterized in that consisting of.

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

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, they can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

1 is an overall configuration diagram of a hybrid power generation apparatus using hydraulic power and wind power according to the present invention, Figure 2 is a view showing a composite generator of a hybrid power generation apparatus using hydraulic power and wind power according to the present invention.

As shown, the composite power generation unit 400 using the hydro and wind power according to the present invention is a wind power generation utilizing the wind blowing between the building 100 and the hydro power generation 100 using rainwater in the high-rise building (10). It is used to convert the electrical energy into the device 200 to store the rainwater in the high-rise building or apartment building in the high-rise and fall to the lower floor to the electrical energy and the interlayer outer wall of the high-rise building 10 is stored by the aberration rotated. By installing the blades 230 to be rotated by the wind to send the electric energy generated to each of the use to use the composite power generation unit 400 that can reduce the energy cost by utilizing the electrical energy produced naturally.

Hereinafter, the hydroelectric generator will be described in more detail with reference to the accompanying drawings.

First, Figure 3 is a view showing the rainwater supply of the hydroelectric generator according to the present invention, Figure 4 is a view showing a hydroelectric power generator using the hydraulic power in accordance with the present invention.

As shown in the figure, the hydroelectric generator 100 in the composite power generator 400 is a rainwater runner 152 freely falling into the vertical pipe 140 while storing the rainwater on the roof of the high-rise building (10). The electrical energy is produced by the rotation of the aberration 150 which is driven to fall apart.

The hydroelectric generator 100 is provided with a rainwater tank 110 for receiving and storing rainwater from the roof of the high-rise building (10).

Then, the rainwater flowing out of the rainwater tank 110 is moved to one side through the drain pipe (120).

Rainwater moved along the drain pipe 120 is introduced into the discharge hopper 130 provided on one side of the high-rise building 10 to discharge a predetermined amount.

At this time, the discharge hopper 130 is to discharge the rain water to the outside while arbitrarily adjusting a predetermined amount of rain water collected and discharged from the drain pipe (120).

In addition, the discharge hopper 130 and the vertical pipe is connected to drop a small amount of rain vertically downward.

Here, the rainwater collected by the discharge hopper 130 is free to drop a predetermined 1L rainwater into the pipe through the vertical pipe 140 or more 15m.

As such, the rainwater falling freely through the vertical pipe 140 falls on the runner 152 of the aberration 150 and the aberration 150 is driven to rotate.

In addition, the discharge hopper 130 for discharging rainwater to the runner 152 of the aberration 150 repeatedly discharges a predetermined amount to maintain the rotational force of the rotating shaft 154, while supplying a constant rotational force to the hydraulic generator 160. Do it.

The aberration 150 described above may be selectively changed and installed according to the characteristics of the installation site (eg, free fall size, flow rate, etc.) by manufacturing a series of various sizes.

At this time, the aberration 150 is connected to the rotary shaft 154, the hydroelectric generator 160 is generated by the rotation of the aberration 150 is composed of a hydraulic power storage device 170 for storing the power generated by the power generation. .

In addition, a bearing (not shown) is installed to support the rotation shaft 154 of the aberration 150 in a rotatable state.

The aberration 150 includes a plurality of runners 152 and is driven to rotate by rainwater falling to the runner 152.

Here, the hydraulic power storage device 200 is supplied to the final demand destination in a state where the stored power is properly converted.

In addition, the rainwater free-falling from the high-rise building 10 is a drain 180 is formed at the lower end of the aberration 150 to discharge the rainwater to the sewer.

This rainy day rainwater is stored in the rainwater tank 110 to send a small amount of water is a power production equipment using aberrations.

Hereinafter, the wind power generator will be described in more detail with reference to the accompanying drawings.

first, 5 is a view showing the blade structure of the wind power generator according to the present invention, Figure 6 is a view showing the blade rotation of the wind power generator according to the present invention.

As shown in the figure, the wind power generator 200 in the composite power generator 400 is supported by the ball joint 220 around the interlayer outer wall of the high-rise building 10 is a predetermined angle by the flow energy of the building wind The left and right rotating blades 230 are arranged in a row along the circumference of the building to produce electrical energy by the rotational force of the blades 230.

The wind power generator 200 is composed of a central rotary shaft 210 leading to the interior of the high-rise building 10, the central rotary shaft 210 protrudes to the outer wall to extend the length of the joint at the end of the joint A ball bearing 224 is seated in the housing 222 to provide a defined left and right rotation at an angle.

The blade 230 which is coupled to the ball joint 220 extending in the extension line with the central rotation shaft 210 is to rotate the left and right at a predetermined angle in response to the wind of the building wind.

At this time, the blade 230 is a plurality of ball joints 220 on the horizontal line at a predetermined interval on the interlayer outer wall of the high-rise building 10, it is mounted on the ball joint 220 is arranged in a line.

The ball joint 220 is composed of a plurality of rows in a row along the perimeter of the high-rise building 10, the blade 230 is coupled to each of the ball joint 220 to rotate left and right by the building wind Will be.

Here, the ball joint 220 is composed of a joint housing 222 which is open at one side that can contain the ball bearing 230 is configured to stop members on both sides so as to rotate left and right only at a predetermined angle without departing from a predetermined angle. can do.

In addition, the blade 230 is coupled to the ball joint 220 in a row in the interlayer outer wall of the high-rise building 10 in an angle range of 15 ° with respect to the left and right directions of the blade 230 to be rotated left and right by the building wind. Constrain to rotate.

Thus, the blade 230 is configured between the floors of the high-rise building 10, the building wind blowing in the gust between the high-rise building 10 and the high-rise building 10 by rotating the blade 230 left and right to the natural energy by the rotational force It is gained by energy.

As the blade 230 rotates, the electric power generated by the wind power generator 240 generating the induced current by the rotational force is stored in the wind power storage device 250.

At this time, the blade 230 is connected to the cable 260 for transmitting the current generated by the wind of the building wind is connected to the parallel structure in the central axis of rotation (210) in which the cable 260 is arranged in a plurality of lines in some section This disconnection does not cause a problem in current transmission.

The wind power storage device 250 is supplied to the final demand destination in a state in which the stored power is properly converted.

Such a wind turbine 200 is a plurality of high-rise building 10 is configured to be mounted on the blade 230 to rotate left and right while generating electrical energy by rotating force by rotation The advertisements 270 are installed on both sides as shown in FIG. 7, so that the advertisement screens of one side and the other side can be produced by rotating the predetermined angle left and right by the building wind.

That is, when the advertisement 270 is printed on the surface of the blade 230 facing the same left and right in a row in the layer of the high-rise building 10 and rotated to the left side, the advertisement 270 visible from the left side is shown. When rotated to the right side, the advertisement 270 is seen from the right side along the right side, so that the advertisement 270 can be viewed from both sides by left and right rotation.

In addition, the advertisements 270 are mounted on both sides of the blade 230 as LEDs so that the advertisement screens can be produced even at night.

This is to produce an advertisement with the LED brightly illuminated at night according to the changing left and right rotation of the blade 230.

Here, as another embodiment of the wind power generation as shown in Figure 8 and 9, the blade 230 is disposed in a row in a row on the interlayer outer wall of the high-rise building 10, in a row between the floors of the high-rise building (10) The rotating body which enables rotation to the upper and lower ends of the () is comprised.

In addition, the rotating frame 284 for fixing the rotating body 282 of the blade 230 supports the blade 230 to rotate left and right by the building wind flowing by combining the upper and lower parts of the blade 230.

A lower rotating shaft 286 is formed at the lower end of the rotating frame 284, which is coupled to the rotating body 282 of the blade 230 in a vertical line to rotate the lower rotating shaft 286.

The lower rotary shaft 286 rotates by the rotation of the blade 230 to store the power generated in the wind power generator 240 to generate electricity by the rotational force in the wind power storage device (250).

As described above, the hybrid generator 400 using the hydropower and the wind power of the present invention selectively transmits the electric energy stored through the hydroelectric generator 100 and the wind turbine 200 to the place required by the composite generator, respectively. It is to make it.

This is the electrical energy stored in the rotational force by rotating the blade 230 by using the building wind blowing on a rainy day while operating the hydroelectric generator 200 using the aberration 150 driven by free fall by storing rainwater on a rainy day It is sent to each use by the composite generator 400 is used.

Here, if the rainy day or the wind does not blow, only the hydroelectric generator 100 may operate to accumulate electrical energy. When the rain does not come, the wind blows only the wind turbine 200 to accumulate electrical energy. .

In this way, the electric energy generated by any one of the hydroelectric generator 100 and the wind power generator 200 is stored in the electrical storage device 300 to send the stored power to the user.

Here, as another embodiment of the wind power generation as shown in FIG. A plurality of the wind power generators 200 are arranged in a row on the interlayer outer wall of the high-rise building 10, and provided with a rotating body 282 to rotate on the upper and lower ends of the blade 230 to be rotated by the building wind, It consists of permanent magnets vertically divided into N pole and S pole.

In addition, the magnetic force generating unit 292 is formed at portions located at both sides of the outer wall blade 230 of the high-rise building 10, which is an opposite pole of the N pole and the S pole formed on the blade 230. By placing the poles close to the magnetic pole to the S pole and the N pole, the blade 230 is configured to rotate left and right by the pushing force on the opposite pole.

In addition, the magnetic force generator 294 is coupled to the lower portion of the rotating body of the blade 230 to rotate left and right by the inertia force of the permanent magnet to generate electricity by the rotational force.

Thus, the electric power generated by the magnetic generator 294 is stored in the magnetic power storage device 296 to send the stored power from the power storage device 300 to the place of use.
That is, in the wind power generator 200 as shown in FIG. 10, the blade 230 is axially coupled to the rotating body 282, and the magnetic generator is coupled to the rotating body 282 and the lower end of the support shaft by left and right rotation. A drive motor (not shown) is provided inside the motor to rotate the drive motor using wind to store an electric force generated by rotational energy. The electric force generated by rotation is located on both sides of the blade 230. The magnetic force generating unit 294 is disposed on both sides of the N pole and the S pole, respectively, and on both sides of the blade 230, respectively, the N pole and the S pole are arranged in the same pole to be rotated by the wind by using a pushing force at the same pole. By forcibly increasing the rotational force to the blade 230 is to rotate the drive motor with a strong rotational force even in a weak wind or strong winds.
In addition, a drive motor is present in each of the blades 230 of the wind power generator 200 located in the circumference of the high-rise building 10, and the electric power is transferred to the cable 260 connected to the drive motor, thereby storing the magnetic power storage device. (296).
The wind power generator 200 having the magnetic force generator 292 is a structure for generating electricity by the rotational force to rotate left and right by the inertial force of the permanent magnet.

As such, by providing the blade 230 on the outer wall of the floor in a building or apartment, the wind power generator 200 generated by rotation by rotational power provides a power generation device capable of continuously supplying power of environment-friendly and stable quality.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is an overall configuration diagram of a hybrid power plant using hydropower and wind power according to the present invention.

2 is a view showing a composite generator of a hybrid power generation apparatus using hydraulic power and wind power according to the present invention.

3 is a view showing the rainwater supply of the hydroelectric generator according to the present invention.

4 is a view showing a hydroelectric power generation apparatus using hydraulic power according to the present invention.

5 is a view showing the blade structure of the wind power generator according to the present invention.

Figure 6 is a view showing the blade rotation of the wind turbine generator according to the invention.

7 is a view showing the advertisement structure of the wind turbine generator according to the present invention.

8 is a view showing a blade of another embodiment of a wind turbine according to the present invention.

9 is a state of use of the rotary frame high-rise building of the wind turbine generator according to the present invention.

10 is a view showing a blade using a magnetic force of another embodiment of the wind power generator according to the present invention.

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

10: high-rise building 100: hydro power unit

110: rainwater tank 120: drain pipe

130: discharge hopper 140: vertical piping

150: aberration 152: runner

154: rotating shaft 160: hydro generator

170: hydraulic power storage device 180: drain

200: wind power generator 210: central rotation axis

220: ball joint 222: joint housing

224: ball bearing 230: blade

240: wind power generator 250: wind power storage device

260: cable 270: advertisement

282: rotating body 284: rotating frame

286: lower rotary shaft 292: magnetic force generating unit

294: magnetic generator 296: magnetic power storage device

Claims (11)

Rainwater tank 110 for receiving rain water from the roof of the high-rise building 10, the vertical pipe 140 is formed with a discharge hopper 130 for discharging while controlling the amount of rainwater flowing out of the rainwater tank 110, Rainwater falling from the vertical pipe 140 is driven by aberration 150 that is driven to fall to the runner, the rotation shaft 154 of the aberration 150, hydroelectric generator 160, hydroelectric generator to generate power by the rotation of the aberration A hydroelectric generator 100 including a hydroelectric power storage device 170 for storing electric power generated at 160; The wind power generators 200 arranged in a row on the interlayer outer wall of the high-rise building 10 has a rotating body 282 to be rotated in the upper and lower ends, vertically divided into a permanent magnet divided into an N pole and an S pole. A configured blade 230; A magnetic force generator 292 disposed close to the same pole on both sides of the blade 230 to give the N pole and the S pole; A magnetic generator 294 coupled to a lower portion of the rotor 282 of the blade 230 to generate electricity by a rotational force rotating left and right by the inertia force of the permanent magnet; And a magnetic power storage device (296) for storing the electric power generated by the magnetic generator (294). delete delete delete delete The method of claim 1, The blade 230, The complex power generation, characterized in that the cable 260 for transmitting the current generated by the wind power of the building wind extends in parallel structure from the central rotating shaft 210 arranged in a plurality of lines, even if some section is disconnected Device. delete The method of claim 1, Composite power generation device further comprises that can be produced as an advertisement screen at night by mounting the advertisements (270) on both sides of the blade 230 with LED. delete delete delete

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