KR100792779B1 - Floatable generating - Google Patents

Abstract

A buoyancy generator is provided to generate electricity using buoyancy of water in a tank and to maintain the facility economically and conveniently by constructing the buoyancy generator in a tributary of a river or a rapid of a stream, a place having a problem of building a dam, a sewage disposal plant, or a sloped water taking plant. A buoyancy generator comprises a water tank(10) storing water, multiple buoys(20) installed in the water tank, an air injection device(30) installed at a bottom of the water tank to transfer buoyancy to the buoy, a control device controlling air injection so that each buoy between the air injection device and the water tank moves up and down sequentially, a crank shaft(40) connected to the buoy to convert movement of the buoy to rotation, and a generator(50) connected to the crank shaft to generate electricity.

Description

Buoyancy Generators {Floatable Generating}

1 is a conventional hydropower explanatory diagram.

2 is a principle diagram showing the development principle of the present invention.

3 is a perspective view showing a buoyancy body which is a main part of the present invention.

Figure 4 (a) (b) is an illustration of an embodiment according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10; tank 11; Inlet 20; buoyant body

21; guide rod 22; arm 23, 31; opening and closing gate

30; air injection device 40; crank shaft 50; generator

60; discharge tank

The present invention is intended to utilize hydro resources, which are evaluated as having low utility value as energy, to be used as power generation energy. In particular, it is possible to install while complying with the natural environment, and to simplify the method and configuration of producing semi-permanent energy with one facility. The aim of the present invention is to provide a buoyancy generator that can minimize the cost of facilities, maximize the efficiency of power generation by reducing the loss of power, and make the maintenance of the buoyancy generator economically and convenient.

In more detail, as shown in FIG. 4, a water tank is formed by filling the water without installing a pit or a dam to form a water tank according to a place, and fills water, and sends air from the bottom of the water tank to the power unit. The buoyancy force obtained by discarding the water in the bottom and as much air ascends raises the bucket and drives the crankshaft associated with it to obtain the rotational force on the crankshaft, and the rotational force rotates the generator through the gear.

This rising buoyancy force is 1 meter horsepower (PS) is a force that lifts 75 kg of object 1m for 1 second (1PS = 75kgm / sec), so if you put 1 square meter of air into 100m of water, 100ton of buoyancy is generated. Supplying 1m2 of air at a depth of 10m into the tank creates 10tons of buoyancy.

Thus, if the sum of four casks is 4 meters squared, 40 tons of horsepower translates into 534 horsepower to generate power. It is desirable to find the most efficient method by increasing the number of generators and adjusting the air volume by increasing the water tank or adjusting the width according to the position or quantity of the water.

The present invention is the most natural way to see the environment in a way that can be used to obtain energy without changing the form of nature at present.

If you use small rivers, tributaries, effluents from sewage treatment plants, reservoir intakes or effluents, you can find many places. In particular, it can be effectively used in rainy tropical and mountainous areas, and can compensate for the shortage of petroleum energy explosion, fossil energy air pollution, and nuclear radiation.

In general, hydropower generates electricity by using 'potential energy' of high water. In other words, when the water wheel is turned by the force of falling water, the generator linked by the shaft of the water wheel turns and electricity is generated. There are many different types of aberrations, but most power plants use Francis aberrations that use water pressure. However, where there is a large drop in water, Pelton's aberration is used, which is rotated by the impact of the ejected water. In addition, Kaplan aberration or propeller aberration of the propeller rotating method is also used. However, like the Paldang hydroelectric power plant in Korea, where the amount of flowing water is large, but the drop is small, the bulb aberration is used.

The advantage of such hydroelectric power generation is that it generates power using natural water potential energy, so it does not generate soot as in thermal power generation, so there is little pollution.

In addition, it can continuously produce energy, the operating cost of the power generation device is low, the power generation time is also short advantage.

However, in contrast to these advantages, it is expensive to construct dams that contain water, and the fresh water must be drained over a large area, so that not only the destruction of the ecosystem but also many historic sites are flooded, and many people lose their hometown. There is a problem.

The present invention has been made to solve the above-described problems, the present invention enables the power generation by using the buoyancy of the water contained in the tank, it is possible to minimize the power plant equipment costs, reduce the power loss to generate power It is possible to maximize the efficiency of, especially in the rivers and rivers with steep slopes, problems in dam construction, sewage treatment plant, inclined intake plant, etc. without being polluted water to produce electricity as a device belonging to the present invention The purpose of the present invention is to provide a buoyancy power generation device which can be economically and conveniently maintained in a feature that can be equipped with a power generation facility in agricultural and industrial parks that use a lot of water and water.

Thus, the present invention is configured as follows to achieve the object as described above. That is, the present invention is a water tank containing water; A plurality of buoyancy bodies installed inside the tank; A crank shaft connected with the buoyancy body to convert the lifting and lowering motion of the buoyancy body into a rotational movement; A generator connected to the shaft to generate electricity; It is characterized in that it is installed in the bottom of the tank consists of an air injection device for imparting buoyancy to the buoyancy body and draining water.

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

2 is a principle diagram illustrating the power generation principle of the present invention, and FIG. 3 is a perspective view showing a buoyant body which is a main part of the present invention.

And (a) (b) of Figure 4 is an exemplary view of an embodiment according to the present invention.

As shown in Figures 2 and 3, the present invention includes a water tank (10) containing water; A plurality of buoyancy bodies 20 installed inside the water tank 10; An air injection device 30 installed at the bottom of the water tank 10 to impart buoyancy to the buoyancy body 20; A crank shaft 40 connected to the buoyancy body 20 to convert the lifting and lowering motion of the buoyancy body into a rotational movement; It is composed of a generator 50 connected to the crank shaft 40 to generate electricity.

That is, in the present invention, the buoyancy body 20 located at the bottom dead center as shown in "A" of FIG. 2 in which the opening / closing gate 23 of the buoyancy body 20 guided by the guide rod 21 is closed is located at the bottom dead center. The air is collected and discharged by the air injection device 30 having a pair of opening and closing gates 31 configured up and down on the lower side of the water tank 10 by a signal transmitting the reached water tank ( 10).

The air injection device 30 is filled with air in a state in which the top and bottom open and close gates 31 are closed, and the open and close gate 31 is opened to supply air into the water tank 10 and the air rises. As the buoyancy body 20 flows into the buoyancy body 20, the buoyancy body 20 is lifted.

Then, after the air escapes and closes, the lower opening / closing gate 31 is opened to drop and flow water introduced into the opening of the upper gate 31 to the discharge tank 60.

The buoyancy body 20 is continuously raised as shown in the "B" state, and when the buoyancy body 20 which is elevated and reaches the top dead center reaches the top dead center, the buoyancy body 20 according to the signal of the position sensor not shown in the top dead center. The opening and closing gate 23 provided in the opening is to discharge the buoyancy air filled into the tank (10) foil.

And the crankshaft 40 by this lifting action is to be lowered again by the rotation and continue to descend like "D" to return to the first "A".

As the upper opening and closing gate 31 of the air injection device 30 is opened again, air is supplied into the water tank 10, and the buoyancy body 20 installed inside the water tank 10 is supplied with buoyancy by the supply of such air. While the buoyancy body 20 is lifted by the buoyancy while lifting along the guide rod 21 and rotates the crank shaft 40 is interlocked with the buoyancy body 20, the crankshaft 40 again the generator 50 By rotating it is configured to generate electricity as known.

Of course, the arm 22 connecting the buoyancy body 20 and the crankshaft 40 is composed of an arm 22 having a length extending or shortening according to the height of the water tank 10.

After supplying air from the air injection device 30 to the buoyancy body 20, the upper opening and closing gate 31 is closed again to prevent the water in the water tank 10 from continuously flowing out of the lower opening and closing gate 31 The water injected in the open state is dropped into the water discharge tank 60.

The water collected in the water discharge tank 60 flows back to the river.

Since this operation is sequentially generated in each buoyancy body 20, the crankshaft 40 according to the lifting of the buoyancy body 20 is to be continuously rotated by the operation of the continuous arm 22.

And when the lifted buoyancy body 20 reaches the top dead center, the opening and closing gate 23 of the buoyancy body 20 is opened again while the air in the buoyancy body 20 escapes to the tank 10 foil. .

 At this time, the water may overflow from the water tank 10, but such water is introduced into the river again so that the streams are not accumulated or the waste ends occur.

The buoyancy body 20 is preferably formed of a tubular bucket to smoothly receive the air supplied from the air injection device 30, when reaching the top dead center of the bucket or in the power generation inside the bucket If the necessary buoyancy is present, it is configured by installing an opening and closing gate 23 that is closed and open when the buoyancy is weakened, and performs an associated operation on the crankshaft. It is composed.

In addition, the buoyancy body 20 composed of the bucket is installed to guide rods 21 to guide the lifting and lowering of the buoyancy body on both sides is configured so that the buoyancy body is raised and lowered stably and friction is reduced.

And the air injection device 30 is preferably installed with a height difference from the water tank 10 to inject air into the water tank (10).

In addition, between the air injection device 30 and the water tank 10, a non-illustrated control device for controlling the injection of air so that each buoyancy body 20 can be moved up and down sequentially is installed, such a control device It is connected to position sensing and crankshaft to operate the switchgear.

Reference numeral 11 denotes an inlet for injecting supplemental water into the tank, and 60 denotes an outlet pipe.

According to the present invention configured as described above, the air of the air injection device 30 is sequentially transferred to each of the buoyancy bodies 20 buckets through a control device, and thus the buoyancy body 20 has a buoyancy to perform an upward operation.

The buoyancy body 20 of each bucket is to produce electricity while the crankshaft 40 is rotated in a sequential upward motion, the generator 50 connected to the crankshaft 40 is rotated.

When each bucket buoyancy body 20 reaches the top dead center, the opening and closing gate 23 is opened and the air that generates buoyancy from the inside is discharged to the outside through the open hole and loses the buoyancy, and the bucket has lost buoyancy. Is the lowering operation by the weight and the crankshaft to prepare for the next raising operation.

Thus, as each buoyancy body 20 rotates the crankshaft 40 continuously while repeating the ascending and descending operations, the generator 50 connected thereto can produce electricity without a separate power source.

When the height of the tank in the present invention is large, the length of the arm 22 of the buoyancy body 20 can be configured to extend.
The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

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As described above, according to the present invention, it is possible to minimize the characteristics and power generation equipment cost of producing electricity by using the buoyancy of water contained in the tank, and to minimize the loss of power to maximize the efficiency of power generation, buoyancy power generation There is an effect that can make the maintenance of the device economical and convenient.

In addition, by using hydro resources, which have been evaluated as having low energy use, as energy for power generation facilities, it is possible to use infinite water resources, and in particular, can be installed while complying with the natural environment. It is a useful invention that can simplify the installation cost to minimize the cost, and maximize the efficiency of power generation by reducing the loss of power.

Claims (1)

A water tank 10 in which water is contained; A plurality of buoyancy bodies 20 installed in the tank 10; An air injection device 30 installed at the bottom of the water tank 10 to impart buoyancy to the buoyancy body 20; A control device for controlling the injection of air so that each buoyancy body 20 can be moved up and down sequentially between the air injection device 30 and the water tank 10; A crank shaft 40 connected to the buoyancy body 20 to convert the lifting and lowering motion of the buoyancy body into a rotational movement; Buoyancy generator, characterized in that consisting of a generator (50) connected to the crank shaft (40) to generate electricity.

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