KR20070029784A - Generating electricity by gravity and buoyancy - Google Patents

Abstract

An electricity generating system is provided to generate electrical energy without causing environmental contamination by using gravity and buoyancy. A double cylindrical structure(1) and a single cylindrical structure(3) are arranged side by side. The double cylindrical structure has an inner cylinder and an outer cylinder filled with liquid. The inner cylinder has a wall on which chains are arranged to be rotatable in a vertical direction. The wall of the inner cylinder has a plurality of holes so that the liquid in the inner cylinder and the liquid in the outer cylinder are communicated with each other. The single cylindrical structure has a wall on which chains are arranged to be rotatable about a cylinder wall. The wall of the single cylindrical structure has a plurality of holes for air circulation. An upper moving unit(2) is arranged on the cylindrical structures and a lower moving unit(4) is arranged beneath the cylindrical structures. The chains are connected to a generator(5).

Description

Gravity and Buoyancy

1 Schematic diagram of gravity and buoyancy power generation device

Figure 2 View from above the buoyancy device

Figure 3 View from above of gravity-using device

4 Schematic diagram of the upper mobile unit

Figure 5 Schematic diagram of the lower mobile unit

Fig. 6 Arrangement method of buoyancy device and gravity device

Electricity is an essential energy for humankind, and thermal power, hydroelectric, and nuclear power are used to obtain it. Thermal power generation is a method of obtaining electricity using coal, oil, etc., but there is no limit to the construction site of the power plant. However, global warming is a problem due to high power generation costs caused by the purchase of raw materials and carbon dioxide emitted during the combustion process. Hydropower does not emit pollutants because it uses water, but there are limitations on where the power plant can be built, which requires a large area of land for construction, and cannot generate power when the quantity is insufficient due to rain.

Nuclear power has a relatively low power generation cost, but it also causes a great deal of damage in the event of an accident and the disposal of nuclear waste left after power generation is also a problem. In addition to these, there are wind, tidal, geothermal, and solar power generation, but these are difficult to produce a large amount of electricity, but they are only a supplementary method of hydroelectric power, thermal power, and nuclear power generation.

To address this reality, the present invention has been devised. The present invention is an eco-friendly power generation method that uses no buoyancy and gravity, which is the force of nature, so that no pollutants are emitted and no waste is generated, and can be built in the city. Way.

The present invention is a double cylinder that generates electricity by using buoyancy buoyancy using device (1 in [Fig. 1]) filled with liquid inside and outside the cylinder, the spherical barrel raised along the buoyancy device by buoyancy Top shifting device (2 in [Figure 1]) to move the upper part of the gravity using device, single cylinder type gravity using device (3 in [Figure 1]) to generate electricity by gravity, spherical barrel lowered by gravity Can be divided into a lower moving device (4 in [Fig. 1]) moving under the buoyancy device and a power generating device (5 in [Fig. 1]) which generates electricity using the power generated by gravity and buoyancy.

The buoyancy device is a stack of two cylinders of different sizes.

([Fig. 2]). The cylindrical shape of the buoyancy device makes it possible to distribute the pressure of the internal liquid evenly compared to the angled structure and to withstand external shocks. Four chains with elliptical rotations up and down with the inner cylinder (1 in [Figure 2]) in the center are installed at appropriate intervals (2 in [Figure 2]). Also, do not overlap two chains at a certain height so that the hollow spheres are cut into several pieces of the central axis (like peeled watermelon after being eaten, then peeled) and arced. At this time, the chain inside the inner cylinder is convex upward, and the chain between the inner cylinder and the outer cylinder is installed to be convex downward. On each of the chains, clasps can be installed that allow the boomerang to block up inside the inner cylinder and to rotate in a convex way down outside the inner cylinder (Fig. 2, 3). And place a barrel (7 in [Fig. 2]) of each sphere wherever the rod or clasp is installed on the chain. Chains and hollow spheres cut into several pieces of the central axis (shelled after eating cut watermelon) or arc-shaped rods or clasps are made of a light, durable, abrasion resistant and rust free material. The inner cylinder is pierced to allow the liquid inside the inner cylinder (4 in [Figure 2]) and the liquid (5 in [Figure 2]) between the inner cylinder and the outer cylinder (6 in [Figure 2]) to circulate. To help. This allows the spherical barrel to rise smoothly when buoyant. When the spherical barrel rises due to buoyancy, the chain rotates. The speed controller is attached to the cylinder so that the chain can rotate at a constant speed.

The upper moving device ([Fig. 4]) is a device for moving a spherical barrel upward through the buoyancy device to the top of the gravity device. This is a branch (2 in [4]) extending from one structure (1 in [Figure 4]), and at the end of each branch, a spherical tubular fixture (three in [Figure 4]) with three or more feet Attach and retract it, lift up the old barrel reaching the buoyancy device, move it on the gravity device, and spread it down to lower the old container onto the gravity device. If one buoyant device and one gravity device are installed in sets, one branch is required. If two sets are installed, two branches are required. And if one gravity-using device is installed between two buoyancy devices in a set, one branch may move each of the buoyancy devices to move the spherical barrel onto the gravity-bearing device. However, the most suitable is one buoyancy device and one gravity device in one set, and several of them are arranged in a circle around the upper mobile device to install one branch for each set, which is spherical while rotating or reciprocating. Moving the canister is economical in terms of cost and the force is evenly distributed over the upper shifter and its support, so it will not overdo it.

Gravity utilization device ([Fig. 3]) is a single-cylinder type device (1 in [Fig. 3]), which generates electricity by lowering the spherical barrel moved from the buoyancy device by the upper moving device. The cylinder of gravity using device makes holes to circulate to keep the inside of the cylinder clean and dry, and can be easily repaired in case of failure. Try to get the most out of it. The device is provided with four chains (2 in [Fig. 3]) at appropriate intervals to allow elliptical rotations up and down about the wall of the cylinder. Each chain is connected to a hollow sphere with the shape of a hollow slice (cut into pieces of watermelon after being eaten with sliced watermelons) or a arc-shaped bar, without overlapping each other at a constant height. Each chain may be provided with a shackle that can be rotated in such a way that the boomerang is convex down inside the cylinder and the boomerang is convex up outside the cylinder (Fig. 3, 3). At this time, the inside of the cylinder is installed so that the convex part faces downward, and the outside of the cylinder faces upward. And in the form of a chain of hollow spheres cut into several pieces about the central axis (the shell after eating the cut watermelon) or a spherical barrel ([Fig. 3] wherever a rod or clasp is installed). 4) Place one by one. In addition, the speed control device is installed in a cylinder such that the movement of the chain due to gravity can occur at a constant speed instead of the natural dropping speed of the spherical barrel.

The lower mobile device is a device that moves the old barrel down through the gravity device to the buoyancy device. This is the same as [Fig. 5], where 1 is a space where a sphere waits to send a barrel to a buoyancy device. A blocking device 2 is installed between 1 and gravity-using devices. 3 is a device that pushes the old barrel in 1 to 4. The bottom of 1 slopes slightly down towards 4 so that the spherical barrel inside 1 can move well to 4. When pushed to 3, breaker 5 is opened between 1 and 4 and 2 is blocked. Space 4 is the space directly below the buoyancy device, making it deeper and taller than space 1. 10 and 11 represent the height when 9 goes up as high as possible and when it goes down as much as possible when reciprocating. And 12 and 13 are filled with water. The water of 13 acts as a buffer to reduce friction with the bottom surface of spherical passage 4. At this time, the water level of 13 should be lower than the floor height of 1 because when the spherical barrel enters 1 to 4, the water level of 13 may increase and water may flow into 1. Between quaternary buoyancy devices, a six-block device is used, with supports at both ends and opening and closing. ㅡ It has a roof shape, not a shape, so that it can withstand the high liquid pressure under the buoyancy device and allow the spherical barrel to be discharged well. And install the device 7 which can introduce the outside air in the upper part of 4, and install the blocking device 8 between 7 and 4. Underneath 4 is a device 9 which discharges the spherical canister in 4 towards the buoyancy device while reciprocating up and down. Device 9 can be installed underwater or outside of water, but outside installation requires a tight seal between 9 and 4 and requires more force than installation underwater. The reciprocating device 9 reciprocates by the force of an internal device (such as an underwater motor) or an external device (such as an external installation motor). The reciprocating device is installed so that the reciprocating motion can be performed with a small force by using a pulley principle lever. The principle of operation of this device is that when the old barrel coming down from the gravity device arrives at 1, 2 is closed and 5 is opened. Move the old barrel to 4 by sliding it to 3, and 5 is closed. At this time, when 8 is closed and 9 starts the upward movement, 6 starts to open. 9 moves up to a height of 10. When the height reaches 10, 6 is closed, 6 is closed, 8 is opened, and 9 begins to descend again. At this time, outside air enters through 7. When 9 reaches a height of 11, the barrel from 1 is fed back to 4. As this movement is repeated, the lower moving device moves the spherical barrel down through the gravity using device to the buoyancy using device so that all the devices can be connected smoothly.

The generator is a device that obtains electricity by driving the generator with the force obtained through the buoyancy device and the gravity device. The forces of buoyancy and gravity applications can be connected to one generator, or they can be connected to different generators. This can be done by connecting a chain of buoyancy and gravity devices to the generator, which can be installed anywhere but not on the ground or on the ground, reducing installation and maintenance costs.

The barrel which rises through the buoyancy device and descends using the gravity device is made into a sphere. This reduces the resistance of liquids and air as they move up and down through the buoyancy and gravity applications, making it possible to effectively use buoyancy and gravity rather than angled forms, and to withstand the high water pressure in the buoyancy system. In addition, when floating from the lower mobile device to the buoyancy device, there are many gaps between the rectangular space of 4 and the spherical teeth, so that the barrel easily floats due to the liquid entering the gap. Also, since there is no distinction between front and rear, left and right, top and bottom, there is no need for special device to emerge as a buoyancy device. (In case of rectangular barrel, when you float as a buoyant device, you need to balance the direction of the cylinder to match the buoyant device. If the balance is not balanced inside, it may be caught in the middle.In the case of the barrel, other types of cylinders, except the spherical barrel, should be manufactured precisely by symmetry, taking into account the center of gravity, and even if manufactured correctly, the balance will be rebalanced during use. If this is not the case, it cannot be used and it may cause the failure of the power generation system.) It can also be easily moved with a slight force on the pushing device 3 when moving from space 1 to 4 in [Fig. 5]. The inside of the canister is filled with a small specific gravity and a solid filler, or by installing several supports to withstand the high liquid pressure. The outside of the canister is made of a material that is not rust and durable. The weight and volume of the barrel ensures proper use of gravity and buoyancy.

There are several ways to set up the buoyancy and gravity applications in sets. How to bundle a double cylindrical buoyancy device and a single cylindrical gravity device into one (1 in [Figure 6]), and two buoyancy devices and one gravity device in between (2, 3 in [Fig. 6]). In addition, a method of arranging such sets includes a circular arrangement method (4 in [Fig. 6]) and a method of arranging buoyancy and gravity using devices in a set (5 in [Fig. 6]). In case of [Fig. 6], the upper part of the device is required to have a circular upper part of the device with the number of branches attached to one of the upper part of the device. The stick-shaped branch that extends to the reciprocating or rotational movement to move the spherical barrel. In case of Fig. 6, the arrangement can be continued in such a form so that the space can be used efficiently.

The overall principle of operation is a hollow sphere, installed in a chain of buoyancy and gravity applications, in the form of a hollow piece (cut into pieces of watermelon after being eaten with cut watermelon) or a rod or clasp in the shape of a hollow sphere. Place one rectangular barrel wherever they are installed. At this time, the chain is fixed to prevent movement by gravity and buoyancy. Fill the buoyancy device with liquid. The liquid has a high specific gravity. Water has a high specific gravity and can be easily obtained, so it is better to use water in a power plant, and a liquid having a higher specific gravity is required because a large volume of electricity must be obtained when a power plant is used for installation. When the liquid is filled, a spherical barrel rises and comes into close contact with a hollow sphere installed in the chain, which is cut into several pieces about the central axis (the skin after eating the cut watermelon) or a rod or clasp. . When the chain lock is released, the buoyant device raises the spherical barrel up and the buoyancy that floats the barrel is cut into several pieces of hollow spheres on the central axis (shell after eating the cut watermelon). It is delivered to the chain by a thing or a arc-shaped rod or clasp, which in turn is sent to a generator to produce electricity. The spherical barrel reaching the buoyancy shifting device is moved to the gravity shifting device by the upper shifting device and descends through the gravity shifting device. The gravity acting is cut into several pieces of hollow spheres on the central axis. (Which is in the form of a shell after eating the sliced watermelon) or through a horn-shaped rod or clasp, which is transmitted to the chain to produce electricity. The spherical barrel reaching the bottom of the gravitational device is moved under the buoyancy device by the lower mobile device, which again rises up through the buoyancy device. This process is repeated to produce electricity using buoyancy and gravity.

The present invention generates electricity using buoyancy and gravity, and does not require external fuel (coal, petroleum, uranium, etc.), generates no waste, and emits no carbon dioxide which causes global warming. It is also a way to generate a large amount of electricity in a small facility. Hydropower or tidal power, wind power, photovoltaic power generation is environmentally friendly, but can not be a stable power generation by external factors, while the present invention can be a stable power generation. The present invention is a method that can solve the energy problem and the environmental problem of the earth at the same time.

Claims (8)

Method of manufacturing double cylinder type of buoyancy device. A method of drilling a hole in a proper place of the inner cylinder to circulate the liquid so that the spherical barrel rises smoothly when buoyant. Installation method of the chain that rotates up and down with the inner cylinder centered on four places of the inner cylinder. To avoid overlapping two chains at a certain height of the chain, a hollow sphere is cut into several pieces about its central axis (shelled after eating a sliced watermelon) or a convex rod inside the inner cylinder. How to install between the inner cylinder and the outer cylinder so as to rotate in a convex form downward. On each of the chains, a clasp of a shape that allows the boomerang to be convex up inside the inner cylinder and the boomerang to be convex down outside the inner cylinder is provided. A hollow sphere attached to a chain, cut into several pieces about its central axis (shelled after eating a sliced watermelon), or a rod-shaped boomerang-shaped clasp. A method of installing gears on the inner, outer walls, top, and bottom of an inner cylinder so that the chain can rotate in a shape close to the initial installation when the cylinder rises due to buoyancy. How to install a speed control device on the surface or cylinder so that the chain can rotate at a constant speed. One branch is attached to the upper mobile device per set of buoyancy and gravity device, and one spherical barrel fixing device is installed at each end to perform reciprocating or rotational movement according to the arrangement of the set. Upper moving device to move the barrel of the device to the gravity device. It is installed at the end of the upper mobile device. It has a three or more foot cylinder holder that lifts and retracts the old barrel on the buoyancy device and puts the old barrel down on the gravity device. A method of manufacturing a single cylinder of a gravity device. By making several holes at the proper position of the cylinder to be ventilated from the outside, the inside of the cylinder can be kept clean and dry, and it can be easily managed. A method of manufacturing a gravity utilization device that maximizes the performance. Installation method of the chain that rotates up and down about the cylindrical wall at four places of the cylinder. In order not to overlap two chains at a certain height of the chain, a hollow sphere is cut into several pieces about the central axis (shell after eating a sliced watermelon) or a arc-shaped bar is convex downward in the cylinder. In order to be able to carry out the spherical barrel safely from the inside of the cylinder by installing so as to rotate in a convex form downwards outside the cylinder. On each of the chains, a clasp of a shape that allows the boomerang to be convex down inside the cylinder and the boomerang to block up outside the cylinder can be rotated. Hollow spheres, which are installed in chains, cut into several pieces about the central axis (shelled after eating a sliced watermelon) or a horn-shaped rod or boomerang-shaped clasp. A method of installing gears on the inner, outer walls, top, and bottom of a cylinder so that the chain can rotate in a form close to the initial installation when the chain descends by a gravity cylinder. How to install a speed control device on the surface or cylinder so that the chain rotates at a constant speed. As shown in 1 of [Fig. 5] of the lower transfer device, the bottom surface of 1 is slightly lowered toward 4 so that the spherical canister can be moved with little or no force when moving from 1 to 4, and 4 to 1 To get back to 4 naturally, even when liquid is introduced into the furnace. Blocking device of 2 of [Fig. 5] which controls the moving speed of a spherical barrel by blocking the gravity utilization device and the space of 1 of [Fig. 5]. Blocking device 5 of [Fig. 5] to block the 4 and 1 of the [Fig. 5] to adjust the moving speed of the spherical barrel, and to prevent the liquid of 4 to flow into 1. [Figure 5] Opening device installed on the upper part of 4 to withstand the high water pressure outside the 4, easy to open and close so that the spherical barrel can be raised to the center, the roof model is installed with the support on both sides The switchgear of 6 of [Fig. 5] of (iv). [Fig. 5] shows the spherical shape of 4 so that the upper and lower reciprocating device of 9 is lower than the floor height of 1 to prevent the inflow of liquid from 4 to 1 and the proper amount of liquid is accumulated on the floor. How to buffer the bottom of 4 when the canister is moved from 1 to 4. When 9 in Fig. 5 goes up, the maximum height raised is slightly below the top end of Fig. 5 so that the liquid collects between the top and bottom surfaces of switchgear 6 and 9. How to get to the bottom of 4 when going down. In the upper part of [Fig. 5], make the passage 7 connecting with the atmosphere, and make the switchgear 8, and when the 9 goes down, open the switchgear 8 so that the outside air flows into 4, and 9 goes down. A method and device for closing a switchgear of 8 when descending so that liquid does not spill out when 9 goes up. Figure 9 of [Fig. 5], which sends the spherical barrel in 4 of [Fig. 5] to the buoyancy device while reciprocating up and down, reduces the reciprocation by installing it in the water in buoyancy device or by making a passage with buoyancy device. How to make it possible with power. [Fig. 5] of the reciprocating device of 9 is installed using the pulley principle, the ratchet principle so that the reciprocating motion with little force. The reciprocating motion of [Fig. 5] can be transferred to 9 by using a power generator (submerged motor, etc.) installed in the liquid, or by connecting external power (external motor, etc.) to the inside through gears, shafts, and chains. Way. The old barrel reaching the lower side of the gravity device is opened by opening 2 of the blocker [Fig. 5] to 1, and after 2 is closed, the blocker 5 is opened and the old barrel inside 1 is pushed to 4 by 3 , 5 is closed, 8 is closed, 9 starts up movement, 6 is open, and the spherical barrel of 4 eyes is discharged to the buoyancy device.When 9 reaches the height of 10, 6 is closed and 8 is open and 9 is down. The starter is operated by repeating the process of supplying outside air to 4 through 7, and closing 9 to 11 by 11, and closing the 8 and supplying the old barrel from 1 to 4. The high liquid pressure in the buoyancy device can be lowered by using the buoyancy device and gravity device to reduce the resistance and move up and down regardless of the direction and balance of the cylinder. How to make a barrel spherical. Filled with a light but hard filler in a spherical barrel, or by installing multiple props to make it resistant to high liquid pressures and external impacts. The outer surface of the spherical barrel is manufactured using metal or special plastic made of durable material that is not rust and durable. A method of configuring a buoyancy device and a gravity device in a set as shown in 1 of the method of connecting the buoyancy device and the gravity device to form a set. As shown in [Fig. 6], the second buoyancy device and the gravity device are configured in one set, or the buoyancy device and the gravity device are configured in one set as shown in FIG. Arrange the set in a circle as shown in Fig. 6, attaching several branches to one upper ear canal, and attaching a spherical barrel fixing device to the end of the branch to rotate or reciprocate, or stagger as shown in Fig. 5. By placing two branches on one upper device to install a spherical barrel fixing device at the end of the branch to rotate or reciprocate. A method of producing electricity by connecting power generated from a buoyancy device and a gravity device to one generator using a chain or the like. How to install the generator and connect it to the chain by installing it near the ground or near the ground for easy installation and management. Method and apparatus for producing electricity by using buoyancy and gravity while the old barrel is circulated through the buoyancy using device, upper moving device, gravity using device, and lower moving device.

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