KR20100120816A - How to get power by change of water pressure by using buoyancy, water pressure and atmospheric pressure - Google Patents

Abstract

PURPOSE: A method for generating power by the change of water pressure using buoyancy, water pressure, and atmospheric pressure is provided to generate power by the difference of water pressure, since water levels for receiving buoyancy are equal though the water pressure is different. CONSTITUTION: A method for generating power by the change of water pressure using buoyancy, water pressure, and atmospheric pressure comprises a main container(1), a secondary container(2), and a pipe(3). The man container contains fluid and has an open-top. A valve(9) is installed at the lower end of the main container. The secondary container has a close-top central portion. The secondary container stands the pipe with an open-bottom. The level of fluid(12) inside the pipe is higher than the water level in the secondary container.

Description

How to use a buoyancy, water pressure and atmospheric pressure to power the change of water pressure {omitted}

According to the present invention, the deeper the water, the greater the water pressure, and even if the fluid is low, the upper part of the pipe is blocked and the lower part is filled with the fluid and the lower part is immersed in the fluid. The fluid in the pipe blocked above the level of the prepared fluid level is used.

The fluids in different cylinders have different levels in the atmosphere, so even though the water pressures are different, the buoyant levels can be the same.

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The main cylinder (1) has a depth of fluid (1) and the top open, and a valve (9) is installed at the lower end of the cylinder.

The top of the auxiliary cylinder (2) is open and widened to fill the fluid (1) so that the height of the water surface is similar to that of the lower valve (9) of the main cylinder (1) and the stomach is blocked in the center of the auxiliary cylinder (2). , Erect the bottom of the pipe (3), the height is similar to the surface of the main body (1). At this time, the fluid 12 in the pipe (3) is higher than the surface of the auxiliary cylinder (2), but due to atmospheric pressure, the pipe fluid (12) does not come down and rises higher than the water level of the auxiliary cylinder (2). In the tube (3), a fluid bag (4) extending like a balloon is installed, and an inlet (5) and an outlet (6) are made so that the inlet (5) opens the lower valve (9) and the suction lake (7) of the main cylinder (1). Connect. The outlet 6 penetrates the upper portion of the liver 3 and connects the discharge lake 8 into the air so that the fluid 13 discharged from the bag 4 located above the pipe 3 enters the main cylinder 1.

In the present invention, since the lower portion of the fluid 10 of the main container 1 has a high water pressure, the bag 4 in the auxiliary container 2 having a very low water pressure enters into the bag 4 through the lower valve 9 and the suction lake 7. ) Expands as the balloon expands. And the enlarged bag 4 has a specific gravity of the fluid 10 of the main cylinder (1) slightly higher than the fluid 11 of the auxiliary cylinder (2) so that the expanded bag (4) rises to the top of the tube (3). The bag (4) floated by buoyancy tries to get out of the fluid (13) in the bag (4) by the force of the inflated bag (4). If the outside force is large, the fluid (13) cannot go out, but in the atmosphere outside the tube (3) Since there is no water pressure, the fluid 13 in the bag is ejected through the discharge port 6 and the discharge lake 8.

The discharged fluid enters the main (1) fluid (10) water surface. Then, the inflated bag becomes smaller after the fluid is discharged, so that the bag 4 is lowered back into place in the tube 3, and the bag 4 is lowered again by a high pressure through the bottom valve 9 of the main container 1. It will fill up and expand.

Through the bottom valve (9) of the main container (1), the high pressure hydraulic fluid (10) is filled in the bag (4) to expand and expand the volume and ascends over the pipe (3) is a fluid ( 13) the discharged and discharged small pockets (4) is lowered again.

As described above, the bag 4 repeatedly fills and empties the fluid 10 due to the difference in water pressure, and accordingly, the bag expands and contracts to obtain power and repeats the up and down continuous motion due to the difference in buoyancy. It is characterized by being made possible.

1 is a structural diagram of a hydraulic pressure generating device.

2 is a flow chart of a hydraulic pressure generating device.

Claims (1)

The fluid level of the tube on which the tube is erected is used to pass the fluid contained in the other cylinder through the bag. Buoyancy and weight do not change as much as the water level in the upper part of the fluid raised into the tube, but the hydraulic pressure is different in the other cylinders, so the high and low pressure of the hydraulic pressure can be used as power.

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