KR20210074482A - Generating equipment using gravity and buoyancy - Google Patents

Abstract

The present invention relates to a generation apparatus using gravity and buoyancy. More specifically, the generation apparatus using gravity and buoyancy includes: a hollow rotation part which is a torus of which cross sections cut in a diameter direction are two circles spaced apart from each other, having partitions individually embedded to retain water filling each of both ends thereof in the diameter direction to be opposed to each other; an arc-shaped support tube surrounding a part of the outer surface of the rotation part in accordance with a formation direction of the rotation part and storing water therein so as to come in contact with the outer surface of the rotation part; and sealing members mounted at both ends of the support tube respectively to come in contact with the outer surface of the rotation part and prevent the water in the support tube from leaking to the outside of the support tube while allowing the rotation of the rotation part. The partition retaining the water stored in one side of the rotation part and the partition retaining the water stored in the other side of the rotation part are formed to be parallel to each other, and the volume of the water retained by each of the partitions is included in the internal volume of the support tube. Therefore, the present invention is capable of performing continuous energy and power production.

Description

Power generation 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 that enables continuous energy production even with a relatively simple configuration.

Energy supply should be a top priority for the continuous development of various industries in a country that lacks resources that can be converted into energy like Korea.

Fossil fuels have drastically changed our lives quickly and conveniently since the industrial revolution, but the side effects also played a significant role.

Accordingly, many countries and researchers are spurring the development of various alternative energies such as hydroelectric power, solar power, wind power or tidal power, and are making efforts to secure energy sources that can replace fossil fuels.

Among them, hydroelectric power has the advantage of being able to continuously use it and obtaining a large amount of energy, but the initial installation cost, i.e., the primary environmental destruction such as artificially cutting and blocking mountain areas or rivers, is inevitable.

In addition, hydroelectric power also has a problem in that it is difficult to find an optimal location condition as it is suitable for power generation where there is little change in flow rate according to the four seasons and a large drop of water is suitable for power generation.

Therefore, it is urgent to develop a device capable of continuously generating energy and power.

The present invention has been 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 the destruction of the surrounding environment.

In order to achieve the above object, the present invention is a two-cause toric body with a cross section cut in the radial direction spaced apart, and is filled with water opposite to each other at both ends along the radial direction, and partition walls for confining the filled water are respectively built-in. A hollow rotating part, an arc-shaped support tube that surrounds a portion of the outer surface of the rotating unit along the forming direction of the rotating unit and receives water therein so as to be in contact with the outer surface of the rotating unit, and is mounted on both ends of the supporting tube, respectively, the rotating unit and a sealing member that is in contact with the outer surface of the rotating part and prevents water inside the support tube from leaking to the outside of the support tube while allowing rotation of the rotating part, wherein the partition wall on one side of the rotation part and the partition wall on the other side of the rotation part are parallel to each other and , the volume of water confined by the respective partition walls may be applied to a structure included in the internal volume of the support tube.

In addition, the present invention is a two-cause toric body with a cross section cut in the radial direction spaced apart, and a hollow rotating part having a partition wall filled with water opposite to each other at both ends along the radial direction and enclosing the filled water, respectively, and the rotating part A bearing assembly comprising a support for supporting both ends of a shaft passing through the center of the disk connected along the inner edge of the support and a bearing mounted on both ends of the support and the shaft to support the rotation of the shaft, A support tube of an arc shape that surrounds a portion of the outer surface of the rotating part and the edge of the disc and that water is accommodated therein so as to be in contact with the outer surface of the rotating part, is mounted on both ends of the support tube, respectively, to the outer surface of the rotating part and the edge of the disc A sealing member in contact with the unit and allowing rotation of the rotating unit and preventing water inside the supporting tube from leaking to the outside of the supporting tube, a tank in which water supplied from the outside is accommodated, and the rotating unit by pumping water from the tank and a pump assembly including a pump for rotating the rotating part by dropping water into the pump assembly, wherein the partition wall on one side of the rotation part and the partition wall on the other side of the rotation part are parallel to each other, and the volume of water confined by each partition wall is the support tube's A structure included in the internal volume may also be applied.

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 the sealing member is closed with a sealing member that prevents the water inside from leaking. According to the configuration including the rotating part that rotates in contact with the support tube, energy and power production can be achieved even with a relatively simple configuration. can be performed continuously.

Therefore, since the rotating part can be installed at any point where a water flow occurs without damaging the dam or surrounding nature, energy and power can be produced, thereby enabling power generation 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;
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 the support tube 200 supports the rotation of the rotating part 100 and the sealing member 300 generates power while preventing the water 201 inside the support tube 200 from leaking.

The rotating part 100 is a torus shaped like a donut-like shape with a cross section cut in the radial direction spaced apart, and water 101 is filled opposite both ends in the radial direction, and the filled water 101 is confined. The partition walls 112 and 114 are hollow members each having a built-in interior.

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

The support tube 200 surrounds a portion of the outer surface of the rotating unit 100 along the forming direction of the rotating unit 100, and is a member of an arc shape in which water 201 is accommodated in contact with the outer surface of the rotating unit 100, the rotating unit The water 201 that supports the rotation of 100 and accommodated therein serves to reduce frictional heat generated on the outer surface of the rotating rotating part 100 .

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

Here, the partition wall 112 for confining the water 101 accommodated on one side of the rotating unit 100 and the partition wall 114 for confining the water 101 accommodated on the other side of the rotation unit 100 are parallel to each other, and each It is preferable that the volume of the space partitioned by the partition walls 112 and 114 to accommodate water is 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 .

And, the moment the water 101 of the rotating part 100, that is, the water 101 divided and accommodated in the partition walls 112 and 114 passes in contact with the water 201 accommodated in the support tube 200, the weight is 0. And, due to the weight imbalance of the rotating unit 100 by the water 101 confined by the partition walls 112 and 114, the rotating unit 100 is continuously rotated.

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

On the other hand, by mounting a plurality of support rollers 150 along the rotational direction on the outside of the rotating part 100, which is the main part of the power generation device using gravity and buoyancy according to an embodiment of the present invention, the support roller 150 is the rotating part ( 100) may be able to effectively distribute and support the load according to the rotation.

Here, it is preferable that the support roller 150 has a circular arc-shaped mounting groove 152 with a concave central portion corresponding to the outer surface shape of the rotating unit 100 as shown, and thus gradually widens toward both ends as a whole.

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

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

In addition, in the support tube 200, a material such as a surfactant that reduces contact resistance by forming an interface with water such as a neutral detergent or lubricating oil to reduce contact resistance with the rotating part 100 and promote smooth rotation is added. it is preferable

On the other hand, the present invention can be applied to the embodiment as described above, of course, the embodiment of the configuration as shown in FIG. 2 can also be applied.

That is, in 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 . A structure to increase or assist the rotational force of the rotating part 100 with the pump assembly 500 may be applied.

The rotating part 100 is a two-cause toric body with a cross section cut in the radial direction spaced apart, and is filled with water 101 opposite to each other at both ends in the radial direction, and partition walls 112 and 114 for confining the filled water 101 . ) are each embedded hollow member.

The bearing assembly 400 includes a circular plate 410 connected along the inner edge of the rotating part 100 , a shaft 420 penetrating the center of the circular plate 410 , and a support 430 for supporting both ends of the shaft 420 . ) and a bearing 450 mounted on both ends of the support 430 and the shaft 420 to support the rotation of the shaft 420 , and disperse and support the force acting in the axial direction of the rotating part 100 .

A generator 600 is mounted on one end of the shaft 420 to convert the rotational energy of the rotating unit 100 into electric power.

The support tube 200 surrounds a portion of the outer surface of the rotating unit 100 and the edge of the disk 410 along the forming direction of the rotating unit 100, and the water 201 is accommodated therein so as to be in contact with the outer surface of the rotating unit 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, and while allowing the rotation of the rotating part 100, the inside of the support tube 200 of the water 201 serves to prevent leakage to the outside of the support tube 200 .

As described above, the pump assembly 500 is for replenishing when the water in the support tube 200 is insufficient so that the rotating part 100 can rotate while continuously entering and leaving the support tube 200. Water supplied from the outside (W ') is to include a tank 510 in which is accommodated, and a pump 520 that pumps water W' from the tank 510 to supplement the water W' in the support tube 200 .

Reference numeral 530 denotes an auxiliary tank in which water (W') pumped from the pump 520 is temporarily accommodated, and 700 denotes an auxiliary tank in which water (W') supplied from the auxiliary tank 530 to the support tube 200 moves. It is a valve mounted on the pipe to open and close the flow path of the pipe described above.

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

At this time, although not shown in particular, the rotating part 100 is preferably supported and supported by at least a plurality of supporting rollers (refer to FIG. 1 ) along the rotational direction on the outside, and the supporting tube 200 has the rotating unit 100 and reducing contact resistance. In order to promote smooth rotation, it is preferable to further add a substance such as a surfactant to reduce contact resistance by forming an interface with water, such as a neutral detergent or lubricant.

Therefore, in the present invention, when the water (W ') is in contact with the rotating part 100 by first operating the pump 520, the rotating part 100 is in contact with the water (W) along the direction in which the water (W) flows and the support tube It is possible to generate power while continuously rotating by receiving elasticity from rotation with water 201 and surfactant of 200.

Meanwhile, according to the present invention, as described above, water may be directly injected into the space between the respective partition walls 112 and 114, and water may be accommodated using a separate member that can be entered and exited as shown in FIG. 3 .

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

Specifically, 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. It is preferable that a stopper 115 for opening and closing an inlet for injecting water 101 from the outside is provided on one side of the tube body 115 .

In addition, the cover 116 may be able to open and close a portion penetrating a portion of the outer peripheral 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 that enables continuous energy production even with a relatively simple configuration and enables power generation while minimizing destruction of the surrounding environment. have.

And, within the scope of the basic technical spirit of the present invention, many other modifications and applications are also possible for those of ordinary skill 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-cause torus separated by a cross section cut in the radial direction, and is filled with water opposite to both ends in the radial direction, respectively, and a hollow rotating part having a partition wall for confining the filled water;
a support tube having an arc shape that surrounds a portion of the outer surface of the rotating unit along the direction in which the rotating unit is formed, and water is accommodated therein to be in contact with the outer surface of the rotating unit; and
A sealing member mounted on both ends of the support tube and in contact with the outer surface of the rotating part, allowing the rotation of the rotating part and preventing water inside the support tube from leaking to the outside of the support tube;
The partition wall for confining water accommodated on one side of the rotating part and the partition wall for trapping water accommodated on the other side of the rotation part are each parallel to each other, and the volume of water confined by each partition wall is smaller than the internal volume of the support tube using gravity and buoyancy. power plant.

Images