KR20070043759A - Lower air tank transfer equipment - Google Patents

Abstract

Using buoyancy (the force acting in the opposite direction to gravity on an object in liquid) and the law of gravity, a cylinder is put into the liquid (water) to generate power when it is raised and falls naturally without supplying energy when descending. It is a device that produces energy (electricity) indefinitely without any energy or external help.

In order to achieve the above object, in order to generate power, it is produced by attaching a pair of water structures that can raise the reservoir in the liquid and an empty structure that can lower the cylinder in a constant manner. It consists of the generated "power generating part", "air cylinder moving part" and "air cylinder lowering part" and the "air cylinder lower moving part" that moves from the hollow structure to the water structure when it reaches the bottom.

The above information was received by the Korean Intellectual Property Office on February 15, 2007, application number 10-2007 0015792, which is an improvement and development of the above-mentioned "air cylinder moving part". When the reservoir descends to the bottom of the hollow structure, the barrier installed at the height of the hollow structure bottom is operated, and when the top and bottom are blocked, the barrier between the empty structure and the water structure is opened, and the water contained in the water structure is lower than the bottom of the hollow structure. As the water enters, the water structure and the bottom of the hollow structure communicate with each other, so push the reservoir on the bottom of the empty structure to the water structure and push it to the mechanism next to the empty structure. When the barrier between the structure and the hollow is closed and the device pushing the reservoir is returned to its original position, when the closed barrier at the height of the empty structure is opened, the bottom of the hollow structure and the top of the hollow structure communicate with each other so that the air cylinder is connected to the bottom of the hollow structure. Will come down.

Description

Lower Air Tank Transfer Equipment

1 is a detailed front view of the principle of the lower portion of the mobile device and the rise, lower portion of the reservoir according to the present invention;

2 is a right side view of the principle of the lower mobile device of the present invention;

3 is a left side view of the principle of the lower moving device of the present invention;

Figure 4 is a detailed view of the reservoir of the present invention

There are new ways to get energy (electricity), hydropower, thermal power and nuclear power, and recently wind power, solar power, tidal power and bio power generation, but these methods have their own limitations.

Hydropower requires large-scale facilities and water is limited, and thermal power generation is generated using crude oil and coal.Therefore, there is a problem of excessive generation cost and environmental pollution caused by the purchase of crude oil and oil. ,

Nuclear power has the advantages of relatively low power generation cost, but the price of uranium, a raw material, is increasing recently, and the treatment of nuclear waste left after power generation is a new problem. Although power generation is an environmentally friendly method, it can be used as an auxiliary method in terms of power generation and cost, but it cannot be a fundamental solution to human energy problems.

In order to reduce the water pressure when pushing the reservoir from the bottom of the air cylinder moving part and the bottom of the empty structure to the bottom of the water structure, the buoyant rotary power generation system received by the Patent Office on February 15, 2007, application number 10-2007 0015792. Because the weight of the water, the amount of water in the water structure should be reduced.) When the air container is tightly packed into the water structure and the empty structure, the amount of water is greatly reduced. It was improved and developed. When the reservoir descends to the bottom of the hollow structure, the barrier installed at the height of the empty structure bottom is operated to block the top and bottom. Then, when the barrier between the empty structure and the water structure is opened, the water contained in the water structure is blocked by the bottom of the empty structure. The water flows into the installed lower part, so that the water structure and the lower part of the empty structure communicate with each other as the water enters, so push the air reservoir in the lower part of the empty structure to the mechanism next to the empty structure. The reservoir rises in the water structure, the barrier between the water structure and the empty structure is closed, the device pushing the reservoir back to its original position, and when the closed barrier at the height of one empty structure is opened, the bottom and top of the empty structure The air cylinders at the top of the hollow structure move to the bottom of the hollow structure It is brought to take

To reduce the water pressure when pushing the reservoir to the bottom of the water structure (the water pressure is the weight of the water, so the amount of water in the water structure should be reduced). This greatly reduces energy consumption when pushing the reservoir.

In order to achieve the above object, when the air cylinder of the hollow structure lowering part descends to the bottom of the hollow structure, a shut-off device which can be opened and closed at one height of the hollow structure bottom reservoir and an opening and closing mechanism of the device are installed together, followed by the hollow structure and the water structure. Install a device that opens and closes the device to open and close it so that the water tank can move in and out of the bottom, and prevent the sudden rise of the buoyancy when the air container moves under the water structure. Install an air cylinder lift control device at the height of one air reservoir under the water structure to ascend at an appropriate speed.

In order to reduce the water pressure by installing chains at the height of the air cylinders at the bottom of the water structure and the bottom of the empty structure, the air cylinders are tightly inserted into the water structure and the empty structure to smoothly move the air cylinders from the empty structure to the water structure. In order to prevent the rapid rise of water pressure in the water structure when the air tank is pushed from the empty structure to the water structure, an air pressure cylinder is installed next to the water structure.

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

Figure 1 is a view from the front showing the operating principle of the present invention, Figure 2 is a right side of the present invention, 3 is a right side view of the present invention, Figure 4 is a detailed view of the reservoir.

When the reservoir descends to the bottom of the hollow structure (13), the hollow structure (13) is the bottom of the hollow reservoir (13). The structure 13 is blocked above and below the height of one bottom air cylinder.

When the top and the bottom is blocked, when the barrier film 4 installed between the bottom of the hollow structure 13 and the bottom of the water structure 1 is pushed in the direction of the arrow using a mechanism such as an oil press 10, the barrier film 4 is opened while the water structure 1 is opened. The water in the water enters the bottom of the hollow structure (13).

Then, by pushing the reservoir 5 of the same reservoir 5 size in the direction of the arrow using a mechanism such as an oil pressure machine 6 next to the hollow structure 13, the reservoir in the lower portion of the hollow structure 13 is lower than the water structure 1. Will go to.

When the reservoir in the bottom of the hollow structure 13 is moved to the lower portion of the water structure 1, the reservoir is adjusted so that the reservoir can be raised at a normal speed by using the air cylinder lift controller 11 to control the sudden rise due to buoyancy. And since the chain is installed up to two heights of the reservoir from the bottom of the water structure (1), even if the reservoir is installed tightly, the reservoir rises with room.

When the air reservoir under the hollow structure 13 moves to the lower portion of the water structure 1, the barrier film 4 installed between the bottom of the empty structure 13 and the bottom of the water structure 1 is used by using an oil press 10 or the like. Pushing in the opposite direction to the arrow, the barrier film 4 rises from the bottom to the top, and the space between the bottom of the hollow structure 13 and the bottom of the water structure 1 is blocked. If you push it in the opposite direction of the arrow by using a light fixture, the top and bottom of one hollow structure (13) cylinder is in communication with each other. Use the mechanism to push in the opposite direction of the arrow to allow the reservoir to descend to the bottom of the hollow structure (13).

Repeatedly repeating these actions is a device that generates power steadily.

It is an improvement of the lower moving device of the buoyancy rotary power generation system, and it will maximize the efficiency of the buoyancy rotary power generation system by moving the reservoir quickly and easily, driving the moving device with less energy while minimizing the waste of water.

Claims (7)

The air reservoir at the bottom of the hollow structure prevents water from entering the bottom of the water structure and prevents water from entering the bottom of the empty structure. Attached to the bottom side of the bottom of the empty structure in order to prevent water from entering the bottom of the empty structure when this device moves sideways from the bottom of the empty structure. In order to control the rapid rise due to the buoyancy of the reservoir moved to the lower part of the water structure, the air tank can be raised at the normal speed by attaching the air cylinder ascending speed control device to the height of one reservoir of the water structure. In order to reduce the water pressure, close the air cylinders in the water structure and the hollow structure, respectively, and install the chain only up to two heights from the bottom of the water structure and the hollow structure. How to do it. If you push the reservoir from the hollow structure into the water structure, the water pressure in the water structure rises sharply. To control this, store the water next to the water structure and install an air pressure part on it to adjust the sudden change of water pressure when the air cylinder enters the water structure. Way. In the upper moving part, the chain is installed in the water structure only up to the water level, and the reservoir can be raised from the chain installation height to the height of one reservoir. The air cylinder is made to be slightly rounded without angled up, down, left and right corners and angled parts, and the support is installed up and down and left and right inside, and it is made in a honeycomb shape between the supports to make it strong to withstand the high water pressure in the water structure. In order to endure high buoyancy, the chain installed in the water structure overlaps the left and right several pieces side by side and distributes the force applied to the chain to reduce the force applied to one chain, and withstands the high buoyancy in the water structure. How to make durable.

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