KR20130104967A - Power generator using buoyancy - Google Patents

Abstract

PURPOSE: A power generating device using buoyancy is provided to easily generate cheap and harmless energy by using the force of gravity and the buoyancy of fluid. CONSTITUTION: A power generating device using buoyancy includes a water tank (1), an input pipe (3), a valve (7), a conveyor type belt (6), supporters (5), a power generator (10), a roller (4), and a subroller (9). The water tank is cylindrical. The inlet pipe includes an inlet in which spheres (2) are inserted and a cover (8) on the upper part. The valve is arranged between the inlet pipe and the water tank. The conveyor type belt is installed to be perpendicularly erected next to the water tank. The supporters support the spheres on the belt. The power generator is connected to a lower central shaft of the roller with the belt or a gear. The roller rotates in one direction. The subroller prevents the shaking of the belt.

Description

Buoyant power generators

In the accompanying drawings, a tank containing a liquid having a density such as fresh water or seawater in a cylindrical tank having a height, and having a diameter slightly smaller than a cylinder of a tank, is a sphere having a volume and a flatness corresponding to the buoyancy of the liquid. When pushed in, the ball floated up to the surface by buoyancy is placed on several pedestals installed on a vertically installed conveyor belt, and the belt is pulled down by gravity (gravity) of the spheres. To get power by rotating the generator

In Figure 1, filling the sphere with the height in the tank can reduce the amount of liquid contained in the tank to less than half the height of the tank, which is very helpful for improving efficiency. Because the height of the

In addition, the number of spheres raised on the whole pedestal descending from the pedestal fixed to the vertically installed conveyor belt is the same number of times, and when one is raised, it is a circulating structure. When you move to the belt, one comes in from the bottom.

Human beings face the problem of energy depletion, and alternative energy is not very satisfactory.

To get energy more safely, it uses the buoyancy force that is opposite to gravity of liquid to increase the volume and volume of ball corresponding to the buoyancy. Let's make a device to get

This machine is reminiscent of hydro power plants.

The energy sources currently used are problematic due to exhaustion, danger, large costs, social conflicts and environmental costs, but they are easy, cheap, and affordable by appropriately utilizing the buoyancy and natural force gravity of liquids that exist indefinitely on the earth. It is not intended to be manufactured and consumed, but to turn into other dangerous substances to create clean energy that is harmless to nature or to plants.

In Fig. 1, there is a tank containing a liquid having a height in a cylinder, and at the bottom, an inlet tube of the same size as the cylinder is connected, an inlet for entering a sphere above the inlet tube, and a lid above and opened and closed. Valves should be installed in the inlet pipe and there is a push rod to push the sphere into the water tank. Next to the water tank, the conveyor belt is installed vertically as shown in the drawing. On the up side, it is empty without a sphere, so it is bent down. On the down side, there are spheres on both sides of the pedestal. The conveyor belt has rollers at the top and bottom, respectively, and the power generator is connected to the central axis of the lower roller by belts or gears.

Such equipment is installed symmetrically on both left and right sides, and the two equipments share one power generator connected to the lower roller center shaft. Let's work

To explain the operation process of such a facility, in Fig. 1, the tank is filled with a sphere that corresponds to the buoyancy of the liquid, i.e., the volume of the rising volume. Prevent the overflow when it comes down. At the bottom, do not put the sphere as empty as it is empty. Even if you do this, you can reduce the amount of liquid contained in the tank to less than half (the ratio between the cylinder and the sphere is 3: 2). This is because putting a sphere in a water tank reduces the liquid by the volume of the sphere, and continuously adding the sphere reduces the amount of liquid by the sum of the volume. It also helps to move the sphere to the belt at the top. This is because the force that pushes the uppermost sphere up by the buoyancy force of the spheres acts. Push the ball into the water tank and push it into the tank. The distance the rod moves is as much as the volume of the ball. At this time, the valve should be open. As the ball enters the water tank, each ball in the water tank moves up and down at the top of the belt at the top of the water tank. Move to the empty stand. At the bottom, before the pusher stops moving and retracts, the valve of the lower inlet tube must be closed and separated into the liquid in the tank and the inlet tube.If it is open, the inlet cannot be opened and the liquid flows back into the inlet at the moment of opening and If the inlet and water tank are united without valve, this facility function itself is not established. When the valve is closed, the rod is retracted as far as it enters, and the lid is opened. Then the liquid level in the input pipe is lowered so that the liquid does not overflow even when the next sphere enters.

In the drawing, all of the belt rests are raised, so the belts are flat and the belt moves downward and rotates the upper and lower rollers. Of these, the power generator connected to the lower roller shaft is turned to produce power. As the bottom of the base moves away from the vertical, the ball is released from the belt support and dropped, and the fallen ball enters a wide opening in the upper part of the input pipe along the taxiway, and the lid is closed and sealed. Then, the valve is opened and the pusher is pushed into the tank. The idea here is that the moment the pusher pushes the sphere into the tank, the moment the top of the tank moves into the belt, and the moment the sphere breaks off the bottom of the belt and enters the slot. Must operate in the same time zone

Considering the efficiency here, the energy that pushes a sphere from the bottom of the tank through the input pipe and the potential energy of the sphere that rises to the surface of the tank (by buoyancy) are the same. However, mechanical frictional resistance However, if the friction of liquid is to be considered, the energy entering from the bottom is larger. However, as described above, the amount of liquid can be reduced to less than half, so that the resistance can be reduced. In many cases, the potential energy of the belt support spheres is different, but the average potential energy is much higher than the energy entering through the input pipe at the bottom of the tank. As such, it is self-circulating and circular And it is suggesting making machinery to get surplus energy. The power produced by the power generator connected to the lower rollers is used to operate the input tube lid, to operate the rod, to move the sphere from the top of the tank, and to obtain surplus energy.

It is able to produce clean and much energy from current energy resources and environmental pollution, and various kinds of building moving machines. Various ships, moving machines, plant facilities of each company, airplanes, electric cars, car plant cultivation, cooling, heating, etc. I can install it by production

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In Figure 1, there is a tank (1) containing a liquid having a height in the cylinder, and a short inlet tube (3) of the same size as the cylinder is connected to the bottom, and an inlet for entering a sphere (2) above the inlet tube, and a lid (8). (7) A valve (7) must be installed between the input pipe and the irradiator. A push rod (piston) is inserted in the input pipe to push the sphere into the water tank. Conveyor type belt (6) is installed, and the base (5) supporting the sphere is installed on the whole belt. There are rollers at the bottom, and the power generator 10 is connected to the lower roller center shaft by a belt or gear. Auxiliary roller 9, the intermediate medium is provided

Such equipment is installed symmetrically on both left and right sides, and the two equipments share one power generator connected to the lower roller center shaft, and the push rods (4) are pushed on both ends. Work makes it a little bit more efficient

If you describe the operation process in such a facility, the tank contains a sphere that corresponds to the buoyancy of the liquid, that is, a floating volume. The top of the tank contains a small amount of liquid as the volume of a sphere, Avoid overflowing Leave a space for a sphere under the tank. Filling the tank with water in this way reduces the amount of liquid in the tank (the volume ratio of the cylinder to the sphere 3: 2). The diameter of the sphere is slightly smaller than the diameter of the cylindrical tank.

Under these conditions, push the sphere into the tank by pushing it into the tank. The distance that the rod moves is the volume of the sphere. At this time, the valve must be open. When the sphere passes through the valve and enters the bottom of the tank, the spheres in the tank move up and the top sphere Take out from the tank and move to the base that is empty from the top of the belt and descends. When the push rod stops moving in the input pipe, the valve is closed and separated by the liquid in the water tank and the input pipe. The lid cannot be opened and this facility does not hold itself. When the valve is closed, the pusher retracts back as far as it enters (this becomes the pusher of the opposite symmetrical installation). If the rod is retracted by the volume of the sphere, the liquid level in the input tube is lowered so that the next sphere enters and the liquid does not overflow or run short.

In the drawing, all of the belt rests are raised, so the belts are moved downwards to rotate the upper and lower rollers. The lower rollers are connected to a power generator to produce power.

The ball down to the bottom falls off the belt as the pedestal moves away from the vertical, and the fallen ball falls into the inlet with the lid open along the taxiway, the lid is closed and sealed. Then the valve is opened and the liquid divided into the tank and the input pipe becomes one. The push rod has a continuous and circular structure that pushes a sphere into a tank

It should be observed that the time that the pusher pushes the sphere into the tank, the time when the sphere moves from the top of the tank to the belt support, and the time when the sphere is pulled out of the bottom stand and enters the feed hole must be operated at the same time and time distance. Circulate structure

Claims (4)

In Figure 1, there is a tank containing a liquid having a cylindrical height, and at the bottom there is a cylindrical but short inlet tube coupled to the top, and an inlet through which a sphere enters, and a lid blocking the inlet opening and closing. A valve is installed between the entrance pipe and the water tank. In the input pipe, a push rod is used to push the ball into the water tank. In the drawing, a conveyor-type belt installed vertically next to the water tank is installed. The pedestals of the pedestals are joined together and the belt is upside down, with no spheres, so it is bent down.
The belt has rollers at the top and the bottom, respectively, so that the belt can rotate smoothly, and the central roller of the lower roller is connected to the power generator by the belt or gear. If the belt is long and high, the belt shakes greatly. A power generator connected to the lower roller center shaft, which is symmetrically installed on both left and right sides, is connected by gears or belts on both sides of the equipment. Increase efficiency by working by rotating operation
The tank is filled with a sphere having a volume and a weight corresponding to the buoyancy of the liquid.The tank top is filled with a small volume of liquid to prevent the sphere from overflowing from the bottom. If the tank is filled with spheres, the amount of liquid in the tank is reduced by the combined volume of the spheres. The ratio of the volume of the cylinder to the sphere can be reduced to less than half even if the volume ratio of the sphere is 3: 2. The diameter of the sphere is slightly smaller than the diameter of the cylinder. Make small
Under these conditions, push the ball into the tank by pushing it into the tank. The distance that the rod moves is equal to the volume of the ball. At this time, the valve must be open. When the ball enters the tank through the valve, the balls in the tank move up and the top ball is If the pusher stops after pushing the ball, the valve is closed and then the liquid is separated from the water tank and the input pipe.If the valve is open, the water tank and the input pipe are unified and the lid cannot be opened. The function of this equipment itself is not established. When the valve is closed, the pusher retracts as much as it enters (this becomes the pusher of the opposite symmetrical equipment), and the lid is opened. The next phrase does not overflow
The belt support coming down from Figure 1 has the spheres on it, so the belt (gravity) of the spheres moves down and rotates the upper and lower rollers.The energy generated from the power generator connected to the central axis of the lower rollers We want to use all the energy to move the sphere to the belt top support on top of the lid tank and use the remaining energy.
When the raised belt support descends to the bottom, the pedestal moves away from the vertical and the pedestal falls off the pedestal and enters the inlet through the open lid along the taxiway, the lid is closed and sealed. The liquid becomes one and the push rod has a continuous and circulating structure that pushes a sphere into a tank
The important thing to keep in mind here is that the time when the pusher pushes the sphere, the time when the top of the tank moves to the belt rest, and the time when the sphere is released from the bottom of the tank and enters the feed slot must be operated at the same time. To form a circular structure
Connecting dozens of such equipment in series and in parallel It is installed in the building, factory, outside, underground or basement of each company apartment building, the various ships with various moving machines, various submarines, various kinds of airplanes and electric cars. Installing inside or outside of various machines, etc. moving in various automobiles and various construction equipment factories The method of claim 1, wherein hydrogen, helium, etc., which are lighter than air, are put inside the sphere to increase efficiency. The same thing as claim 1 used for cooling heating and lighting, and breeding and growing various animals and plants using them.

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