KR20200046659A - Generating equipment using gravity and buoyancy - Google Patents

Abstract

The present invention relates to a power generation apparatus using gravity and buoyancy, which comprises: a hollow rotation unit which is a torus including two circles in which cross sections cut in a radial direction are spaced apart from each other, and embedded with barriers for trapping oppositely filled water in both ends in the radial direction; an arc-shaped support tube for surrounding a part of an outer surface of the rotation unit in a direction of forming the rotation unit, and accommodating water therein to be in contact with the outer surface of the rotation unit; and a sealing member separately mounted on both ends of the support tube to be in contact with the outer surface of the rotation unit, and preventing the water inside the support tube from leaking to the outside of the support tube while allowing rotation of the rotation unit. The barrier for trapping water accommodated on one side of the rotation unit and the barrier for trapping water accommodated on the other side of the rotation unit are parallel to each other, and the volume of the water trapped by each of the barriers is included in the inner volume of the support tube. According to the present invention, the production of energy and power can be continuously performed even with a relatively simple configuration.

Description

Generating device using gravity and buoyancy {GENERATING EQUIPMENT USING GRAVITY AND BUOYANCY}

The present invention relates to a power generation device using gravity and buoyancy, and more particularly, to a power generation device using gravity and buoyancy enabling continuous energy production with a relatively simple configuration.

The supply of energy should be a ground-breaking task to continuously develop various industries in countries where there is a lack of energy-enhancing resources, such as Korea.

Fossil fuels have drastically and quickly changed the whole of our lives since the Industrial Revolution, but the side effects have also been significant.

Accordingly, many countries and researchers are trying to secure energy sources to replace fossil fuels by spurring the development of various alternative energy sources such as water power, solar power, wind power, or tidal power.

In the case of hydraulic power, of course, it has the advantage of being able to be used continuously and obtaining large energy, but primary environmental destruction is inevitable, such as the initial installation cost, that is, artificially cutting and blocking mountainous areas or rivers.

And, there is a problem in that it is difficult to find an optimal location condition, as the place where the drop of water is large is suitable for power generation even though the change of the flow rate according to the four seasons is small.

Therefore, it is said that the development of a device capable of continuously producing energy and power is urgent.

The present invention was devised to solve the above problems, and is to provide a power generation device using gravity and buoyancy that enables continuous energy production even with a relatively simple configuration.

And, the present invention is to provide a power generation device using gravity and buoyancy to enable power generation while minimizing destruction of the surrounding environment.

In order to achieve the above object, the present invention, two cross-section toroidal cross-section cut in the radial direction is filled with water so as to face each of the opposite ends in the radial direction, and the partition wall to trap the filled water, respectively A hollow rotating part, and a circular support tube in which water is accommodated therein to cover a part of the outer surface of the rotating part along the formation direction of the rotating part and to be in contact with the outer surface of the rotating part, and the rotating parts are respectively mounted at both ends of the supporting tube It includes a sealing member that is in contact with the outer surface and prevents the water inside the support tube from leaking out of the support tube while allowing the rotation of the rotating part, and the partition wall on one side of the rotating part and the partition wall on the other side of the rotating part are parallel to each other. , The volume of water confined to each of the partition walls is a structure included in the inner volume of the support tube Can be applied.

In addition, the present invention is a two-membered torus having cross-sections cut in the radial direction, and is a hollow rotating part having water-filled and confined water-blocking walls respectively opposed to both ends along the radial direction, and the rotating part. A support assembly for supporting both ends of the shaft passing through the center of the disk connected along the inner edge of the shaft, and a bearing assembly mounted on both ends of the support and the shaft to support rotation of the shaft, and along a direction of formation of the rotating part A portion of the outer surface of the rotating part and an edge portion of the disk, and an arc-shaped support tube for receiving water therein to be in contact with the outer surface of the rotating part, and the outer surface of the rotating part and the edge of the disk are respectively attached to both ends of the supporting tube The support tube is in contact with the part while allowing rotation of the rotating part A pump including a sealing member for preventing the leakage of negative water to the outside of the support tube, a tank for receiving water supplied from the outside, and a pump for pumping water from the tank to drop water to the rotating part to rotate the rotating part It includes an assembly, the partition wall on one side of the rotating part and the partition wall on the other side of the rotating part are parallel to each other, and the volume of water confined by each partition wall may be applied to a structure included in the inner volume of the support tube.

According to the present invention having the above configuration, the following effects can be achieved.

First, the rotation is supported by the support tube and is closed with a sealing member that prevents leakage of water inside the sealing member. It can be done continuously.

Therefore, the rotating part can be mounted anywhere where water flow occurs without damaging the dam or the surrounding nature, so that energy and electric power can be produced, so power generation is possible while minimizing the destruction of the surrounding environment.

1 is a cross-sectional conceptual view showing the overall structure of a power generation device using gravity and buoyancy according to an embodiment of the present invention
Figure 2 is a cross-sectional conceptual view showing the overall structure of a power generation device using gravity and buoyancy according to another embodiment of the present invention
3 is an enlarged view of part A of FIG. 1;

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

1 is a cross-sectional conceptual view showing the overall structure of a power generation device using gravity and buoyancy according to an embodiment of the present invention.

In the present invention, it can be seen that while the support tube 200 supports the rotation of the rotating part 100, the sealing member 300 is configured to generate power while preventing water 201 inside the support tube 200 from leaking.

The rotating part 100 is a torus having the same shape as two-caused donuts with cross-sections cut in the radial direction, and is filled with water 101 so as to face both ends along the radial direction, and confines the filled water 101. The partition walls 112 and 114 are hollow members, respectively.

The water 101 is accommodated in the spaces partitioned by the partition walls 112 and 114, which are mounted spaced apart from the rotating part 100, and serves to generate rotational force.

The support tube 200 surrounds a part of the outer surface of the rotating part 100 along the formation direction of the rotating part 100, and is an arc-shaped member in which water 201 is accommodated therein to contact the outer surface of the rotating part 100, the rotating part Supporting the rotation of (100), the water 201 accommodated therein serves to reduce frictional heat generated on the outer surface of the rotating part 100.

The sealing member 300 is mounted on both ends of the support tube 200, respectively, in contact with the outer surface of the rotating part 100, while allowing the rotation of the rotating part 100, water inside the supporting tube 200 is supported. Prevent leakage to the outside.

Here, the partition wall 112 for trapping the water 101 accommodated on one side of the rotating part 100, and the partition wall 114 for trapping the water 101 accommodated on the other side of the rotating part 100 form a parallel, respectively It is preferable that the volumes of the spaces partitioned by the partitions 112 and 114 to receive water are mutually the same.

At this time, the volume of the water 101 confined by each of the partition walls 112 and 114 is formed to be smaller than the internal volume of the support tube 200.

Then, the water 101 of the rotating part 100, that is, the water 101 partitioned and received by the partitions 112 and 114 is in contact with the water 201 received in the support tube 200 and passes through, the weight is 0 And, as the weight imbalance of the rotating part 100 by the water 101 trapped by the partition walls 112 and 114, the rotating part 100 is capable of continuous rotation.

The present invention can be applied to the above-described embodiments, it is of course possible to apply the following various embodiments.

Meanwhile, a plurality of support rollers 150 are mounted on the outer side of the rotating part 100 which is a main part of the power generation device using gravity and buoyancy according to an embodiment of the present invention along the rotational direction, so that the supporting roller 150 is a rotating part ( It may be possible to effectively distribute the load due to the rotation of 100).

Here, it is preferable that the support roller 150 has an arc-shaped mounting groove 152 with a concave center portion formed to correspond to the outer surface shape of the rotating portion 100 as shown, thereby gradually widening toward both ends.

At this time, the support roller 150 may be mounted on the surface of the elastic material 151, such as rubber or urethane or polyurethane resin, in contact with the rotating part 100 as shown in order to support rotation.

Then, the support roller 150 may be connected to the generator 600 as shown to convert the rotational energy of the rotating part 100 into electric power.

In addition, a material such as a surfactant that reduces contact resistance by forming an interface with water, such as a neutral detergent or lubricant, is further introduced into the support tube 200 so as to reduce contact resistance with the rotating part 100 and promote smooth rotation. It is preferred.

On the other hand, the present invention can be applied to the above-described embodiment, it is of course also possible to apply the embodiment of the configuration as shown in FIG.

That is, according to the present invention, as shown, the support tube 200 supports the rotation of the rotating part 100 supported by the bearing assembly 400 and the water 201 of the support tube 200 leaks to the sealing member 300. It can be prevented, it is possible to apply a structure to augment or assist the rotational force of the rotating part 100 with the pump assembly 500.

The rotating part 100 is a two-caused torus having cross-sections cut in the radial direction, and the water 101 is filled to face both ends along the radial direction, and the partition walls 112 and 114 to confine the filled water 101 ) Are hollow members each embedded.

The bearing assembly 400 includes a disk 410 connected along the inner edge of the rotating part 100, a shaft 420 penetrating the center of the disk 410, and a support 430 supporting both ends of the shaft 420 ) And supports 430 and bearings 450 mounted on both ends of the shaft 420 to support the rotation of the shaft 420, and distributedly supporting forces acting in the axial direction of the rotating portion 100.

The generator 600 is mounted at one end of the shaft 420 to convert the rotational energy of the rotating part 100 into electric power.

The support tube 200 wraps a part of the outer surface of the rotating part 100 and an edge portion of the disk 410 along the formation direction of the rotating part 100, and water 201 is accommodated therein in contact with the outer surface of the rotating part 100. It is an arc-shaped member.

The sealing member 300 is mounted on both ends of the support tube 200, respectively, in contact with the outer surface of the rotating part 100 and the edge of the disk 410, while allowing rotation of the rotating part 100, inside the supporting tube 200 It serves to prevent the water 201 from leaking out of the support tube 200.

The pump assembly 500 is for supplying water (W) supplied from the outside to compensate when water in the support tube 200 is insufficient so that the rotating part 100 continuously rotates while entering and exiting the support tube 200 as described above. ') Is to include a tank 510 is accommodated, and pump 520 to pump water (W') from the tank 510 to replenish water (W ') to the support tube 200.

As a reference numeral 530 is a water (W ') pumped from the pump 520 is temporarily accommodated in the auxiliary tank, 700 is the auxiliary tank 530, the water (W') supplied to the support tube 200 is moved It is a valve mounted on the pipe to open and close the flow path of the aforementioned pipe.

Here, the partition wall 112 confining the water 101 accommodated on one side of the rotating part 100, and the partition wall 114 confining the water 101 accommodated on the other side of the rotating part 100 are parallel to each other. The volume of the water 101 confined by the partition walls 112 and 114 is preferably smaller than the inner volume of the support tube 200.

At this time, the rotating part 100 is not particularly shown, but is preferably supported by at least a plurality of support rollers (see FIG. 1) along the rotational direction on the outside, and the support tube 200 reduces contact resistance with the rotating part 100 In order to promote smooth rotation, it is desirable to further insert a material such as a surfactant that reduces contact resistance by forming an interface with water, such as a neutral detergent or lubricant.

Therefore, in the present invention, when the pump 520 is initially operated, and water (W ') contacts the rotating part 100, the rotating part 100 contacts the water (W) along the direction in which the water (W) flows and the support tube With the water 201 and the surfactant of 200, it is able to generate power while continuously rotating by receiving elasticity in rotation.

Meanwhile, the present invention may directly inject water into the space between each of the partition walls 112 and 114 as described above, and may also accommodate water using a separate member that is accessible as shown in FIG. 3.

That is, the rotating part 100 may apply a structure in which water 101 is injected into the tube body 115 and closed with a cover 118.

In particular, the tube body 115 is accommodated between the partition walls 112 and 112 on one side or the partition walls 114 and 114 on the other side, and water 101 is accommodated therein to use elastic and elastic material. It is possible, one side of the tube body 115 is preferably provided with a stopper 115 for opening and closing the injection port for injecting water 101 from the outside.

In addition, the cover 116 may be able to open and close a portion penetrating a part of the outer circumferential surface of the rotating part 100 in which the tube body 115 is accommodated.

As described above, it can be seen that the present invention has a basic technical idea to provide a power generation device using gravity and buoyancy to enable continuous energy production even with a relatively simple configuration, and to minimize the destruction of the surrounding environment while enabling power generation. have.

And, within the scope of the basic technical idea of the present invention, many other modifications and applications are also possible to those skilled in the art.

100 ... Rotating part 200 ... Support tube
300 ... sealing member 400 ... bearing assembly
500 ... pump assembly 600 ... generator
700 ... Valve

Claims (1)

It is a two-way toroidal cross-section cut in the radial direction, the water is filled opposite to each end along the radial direction, the hollow rotating part is built-in partition walls for trapping the filled water, respectively;
An arc-shaped support tube surrounding a part of the outer surface of the rotating part along a direction in which the rotating part is formed, and receiving water therein to be in contact with the outer surface of the rotating part; And
It includes a sealing member which is mounted on both ends of the support tube and is in contact with the outer surface of the rotating part, and prevents water inside the support tube from leaking outside the support tube while allowing rotation of the rotating part.
The partition wall for trapping water accommodated in one side of the rotating part and the partition wall for trapping water accommodated in the other side of the rotating part are parallel to each other, and the volume of the water trapped by each partition wall uses gravity and buoyancy less than the internal volume of the support tube. Power generation device.

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