KR970001462B1 - Energy producing apparatus using tidal rise and fall - Google Patents

Abstract

a structure(3) secured on a base(4) and having an opened bottom surface and closed top surface(1) and wall(2); a pipe(6) fixed on a hole(5) on the top portion of the top surface(1) and wall(2), to which a long pipe(7) is connected; a compression chamber(9) and a vacuum chamber(10) each formed on the center portion of the long pipe(7) and each having valves(15,16) and cokes(15',16'); a plurality of wind mill chambers(12) in which a wind mill(11) having a permanent magnet or electromagnet(11') attached on the side surface thereof is installed; a water tank(17) in which valves(18,19) and a pipe(20) are provided; and a plurality of branch pipes(8) branched from the end of the long pipe(7) on which a plurality of cokes(14',14",14"').

Description

Tidal power

1 is an overall perspective view of the present invention.

2 is a longitudinal cross-sectional view of the present invention.

3 is a working principle of the present invention.

※ The dotted lines 7 'and 16' of FIG. 2 and 3 are sectional drawing of the long pipe | tube 7 and the parallel pipe | tube 16, and shows the part which does not show a fact.

* Explanation of symbols for main parts of the drawings

1: Top 2: Side

3: building 4: base

5: hole 6: connector

7: long pipe 8: branch pipe

9: compression chamber 10: vacuum chamber

11: protrusion bar 12: ball

13 ball valve 14 opening and closing hole

15: cork 16: parallel tube

17 tank 18: protrusion bar

19: ball 20: ball valve

21: opening and closing hole 22: Cork

23: protrusion bar 24: ball

25: ball valve 26: suction pipe

27: protrusion bar 28: ball

29: ball valve 30: discharge pipe

31: opening and closing 32: cork

33,35,37: Opening and closing hole 34,36,38: Cork

39: fluid inhaled water, oil, gas, etc. 40: fluid such as water, oil, gas, etc.

41: sea level

42: A fluid lighter than water with a low shrinkage and expansion rate

According to the present invention, when the sea level rises or falls by the high and low ebbs and the sea level rises and falls by the high and low tide, the contraction rate and the expansion rate in the building are low and light than the water. Compresses the air above it into the compression chamber while pushing down the flow, and when the sea level falls, the fluid of the building is sucked in and sucks the air above it, so the energy accumulated as the vacuum chamber changes to a vacuum state can be used as a power source. It is about an "powering device of assistance."

Conventional tidal power has prevented the coastal canyon to generate potential energy generated by the water level difference in the inner park, but this requires a huge budget and has difficulty in finding a suitable place.

The present invention has been invented to fundamentally improve the above problems, which will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1 and FIG. 2, the upper surface 1 and the side 2 are completely secured on the base 4 installed on the bottom of the sea where the difference between tidal waves is large. Ideally, the lower end of the construction 3 is lower than the lowest limit of the sea level at low tide, and the upper end of the construction 3 is lower than the upper limit of the sea level at high tide.

In addition, a net is installed on the lower surface of the building 3 to prevent foreign substances from penetrating, and a long pipe 7 is connected to the connecting pipe 6 inserted and tightly inserted into the hole 5 drilled on the upper surface 1, and the building 3 Fills the fluid 42 with a low shrinkage and expansion rate and lighter than water in the vertical space of the and long tubes 7.

An extruded chamber 9, which is completely enclosed, is installed at a suitable position in the middle of the long pipe 7, and on the structure 3 side of the compression chamber 9, a protruding rod 11 is provided on the right side of the inner wall surface of the hole of the left side right light. The left side is connected to the known ball valve 13 is built-in ball 12, which is freely moved, and the other side is connected to the known cock 15 having an opening and closing hole 14 to control the flow rate of air.

And the vacuum chamber 10, which is completely enclosed in the middle of the parallel tube 16 connected in parallel to the long pipe (7) is installed, the protruding rods on the left side of the inner wall surface of the hole in the left light right side (3) side of the vacuum chamber (10) 18) and a ball valve 20 having a ball 19, which is freely moved on the right side thereof, is connected, and on the opposite side, a known cock 22 having an opening and closing hole 21 for controlling and controlling the flow rate of air. Connect it.

The end of the long pipe 7 is connected to a tank 17 for storing fluid such as water, oil, or gas, and a protruding rod is formed on the right side of the inner wall surface of the hole in the left side of the right side of the tank 17. 23) and a suction pipe 26 coupled with a ball valve 25 in which a ball 24 freely moves on the left side thereof is connected, and the end of the suction pipe 26 is immersed in a fluid such as water, oil, gas, or the like. To help.

The lower right side of the tank 17 has a protruding rod 27 on the right side of the inner wall surface of the right side of the left side light, and the left side connects the discharge pipe 30 to which the ball valve 29 with the ball 28 is incorporated. The cock 32 having the opening and closing hole 31 is connected to an appropriate position of the discharge pipe 30, and each branch pipe 8 branched from the discharge pipe 30 has opening and closing holes 33, 35, and 37, respectively. Cokes (34) (36) (38) are fitted and at each end of the branch pipes there is a connection to the machinery operated by compressed air.

As shown in FIG. 3, when the sea level 41 inside the building 3 rises as the tide rises, the sea level 41 serves as a piston, and the building 3 and the long pipe 7 are operated. The shrinkage and expansion rate in the inner space of the low and lighter than the water 42 is pushed out and pushes the air above it.

And at low tide, because the sea level 41 inside the building 3 descends to act as a piston, the fluid 42 in the interior space of the building 3 and the long pipe 7 is sucked, but the fluid 42 also shrinks. Since the overexpansion rate is low, the kinetic energy due to the rise or fall of the sea level 41 is transmitted as it is without being absorbed and extinguished, thereby maximizing the efficiency of the energy.

The purpose of the presence of the fluid 42 is to transmit the kinetic energy due to the rise or fall of the sea level 41 without absorbing and extinguish it as it is, so as to maximize the efficiency of the energy.

The energy obtained in this way is higher than the energy generated when there is no fluid 42 inside the building 3, so the energy can be used directly, but when used with more powerful energy, the sea level 41 rises. Whenever you fall or fall, you can accumulate and use the energy repeatedly.

In order to do this, the cock 15 of the compression chamber 9 and the cock 22 beside the vacuum chamber 10 are closed so that the opening and closing hole 14 and the opening and closing hole 21 are completely sealed. When the sea level 41 inside the building 3 rises, the air pushed out together with the fluid 42 enters the long tube 7 and the parallel tube 16 simultaneously, but the air entered into the parallel tube 16. The ball 19 pushed out closes the hole of the ball valve 20 so that the air cannot enter the vacuum chamber 10.

However, by pushing the balls 12 into the protruding rod 11 toward the protruding rod 11, the balls 12 contact the protruding rods 11 and enter the extrusion chamber 9 through the gaps formed around the balls 12. Will enter.

In this way, while the sea level 41 rises, the air entering the compression chamber 9 continues to be compressed and accumulates.

Then, when the sea level 41 inside the building 3 descends by the low tide, the sea level 41 acts as a piston, and when the air above the fluid 42 is sucked in, the long pipe 7 and the parallel pipe ( At the same time, the air in 16 is also sucked in. At this time, the air of the long pipe 7 sucks the ball 12, so that the ball 12 completely closes the hole of the ball valve 13, so that the air of the extrusion chamber 9 Can't suck

However, when the air in the parallel pipe 16 is sucked in, the air in the vacuum chamber 10 is formed through the gaps formed around the ball 19 of the ball valve 20 in contact with the protruding rod 18. It is sucked toward), which causes the vacuum chamber 10 to change into a vacuum state, where energy is accumulated.

In this manner, when the tide is compressed, compressed air is accumulated in the compression chamber 9, and at low tide, the air in the vacuum chamber 10 is sucked into a vacuum state, and energy that can be sucked is accumulated. Therefore, a lot of energy is accumulated in the compression chamber 9 and the vacuum chamber 10 in proportion to the number of times.

When the fluid 40 such as water, oil, gas, etc. is to be pumped up or transported by the accumulated energy in this way, the suction pipe 26 is closed at the end of the suction pipe 26 while the opening and closing hole 14 of the cock 15 is closed. And soaked in a fluid 40 such as a gas, and opening the opening / closing hole 21 of the cock 22 sucks the air of the tank 17 from the vacuum chamber 10 which is in a vacuum state. This suction sucks the hole of the ball valve 29, while the ball 24 of the ball valve 25 is in contact with the protruding rod 23 and through the gap formed around the ball 24, such as water, oil, gas, etc. Fluid 40 enters tank 17.

Thus, the fluid 40, such as water, oil, and gas, enters the tank 17, closes the opening / closing hole 21 of the coke 22, and opens the opening / closing hole 14 of the coke 15. The compression chamber 9 Since compressed air of the air enters the tank 17 and pressurizes the surface of the fluid 39 such as water, oil, and gas in the tank 17, the fluid 39 such as water, oil, gas, etc. 24 and the ball 28 is pushed out in which the ball valve 25 is sealed by the ball 24, the ball 28 is in contact with the protruding rod 27 and the gap is formed around the water, oil, gas The fluid 39 of the back is discharged to the discharge pipe 30 through this gap.

In this way, it is possible to pump or transport the fluid 40 such as water, oil, gas, etc. The total amount thereof is determined by opening and closing the opening and closing hole 31 of the coke 32 and corresponding to the branch pipe 8. When opening / closing holes 33, 35, 37 of the cocks 34, 36, 38 are opened, the fluid 39 such as water, oil, gas, etc. is discharged through the branch pipe 8.

When the compressed air compressed in the sea level 41 rises or the compressed air stored in the compression chamber 9 is operated as a power source, the opening and closing hole 21 of the coke 22 is closed, Opening the opening / closing hole 14 of the coke 15 and the opening / closing hole 31 of the coke 32 causes the compressed air to be blown out through the tank 17 into the discharge pipe 30 and the branch pipe 8 so that the branch pipe ( 8) Operated by the same operating principle as when the machinery mounted at the end is operated by the compressor, and the discharged air is discharged from the openings 33, 35, 37 of the respective cocks 34, 36, 38. It is determined by the degree of opening and closing.

As described above, the effect of the present invention is that the energy of compressed air or expanded air is accumulated in the compression chamber and the vacuum chamber whenever the sea level, which acts as a piston, rises or falls at high tide and low tide. Since there is a low shrinkage and expansion rate and a lighter fluid than water, the efficiency of energy generated every time the sea level rises or falls can be increased, and by using the energy of compressed air or expanded air accumulated each time the sea level rises or falls, It transfers a fluid such as water, oil, gas, etc., and has the effect of operating the compressor using machinery with the energy.

Claims (1)

The upper surface (1) and the side (2) are secured to the closed structure (3) on the base (4) installed at the bottom of the sea and connected to the connector (6) of the hole (5) drilled in the upper surface (1). The fluid 42 is filled in the vertical part of the long pipe 7 and the space of the building 3, and the dowel bar 11 is provided on the building 3 of the compression chamber 9 installed in the middle of the long pipe 7. And a ball valve 13 having a ball 12, and on the opposite side thereof, a cock 15 having an opening and closing hole 14 is connected, while in the middle of the parallel pipe 16 connected in parallel to the long pipe 7; The ball valve 20 having the protruding rod 18 and the ball 19 is connected to the structure 3 of the installed vacuum chamber 10, and the cock 22 having the opening and closing hole 21 is connected to the opposite side thereof. Next, the suction pipe 26 and the protruding rod 27 and the ball 28 which combine the ball valve 25 with the protruding rod 23 and the ball 24 on the lower left and right sides of the tank 17 connected to the end of the long pipe 7. The ball valve 29 and the opening and closing hole 31 is connected to the discharge pipe 30, which combines the cock 32, the construction (3 Tidal power in the compressed chamber (9) and the vacuum chamber (10) in the compressed power (9).

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