JP2003042100A - Pulsation type pumping and draining device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To pump up, store and drain water in a pipe system. SOLUTION: In the water pipe system, a tube is raised in a lower tank. A water storage chamber is formed at an upper part of the tube. An exhaust pipe is attached on the same. When air is evacuated by a vacuum pump, water in the lower water tank is pushed by atmospheric pressure to rise to the upper water storage tank and be stored in the same. There is a lower water storage chamber having a tube connected below the upper water storage tank. When a valve (spherical) separating both chambers is opened after evacuating air in the lower water storage tank, water drops. Since the lower water storage chamber is sealed, water remains therein. Then, the spherical valve is closed, a ventilation valve of the lower water storage chamber is opened and a water drain opening is opened, the water therein is drained. Water is drained in two stages. Water does not drain continuously but fixed quantity of water surely drains with a time delay. This device is called as the pumping and draining machine pumping and draining water in pulse.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used where water is used from the bottom up and the water is dropped. [0002] A conventional pump is operated by a motor.
He was pumping water. Or like a well,
It was pumped by human power. [0003] Oil for 43 years, gas for 68 years, uranium for 7 years
Four years, coal reserves will run out in 212 years. "The energy 2000 of the Ministry of Economy, Trade and Industry, and Japan has 90% of its oil in the Middle East. [0004] The use of energy is also increasing, not just the day when the energy runs out. According to the Nikkei on May 21, 2001, "Electricity used in IT in Japan will increase eightfold to 211.7 billion kwh in 2010." Approximately 20% of Japan's annual power consumption of 1 trillion kwh can be increased by IT alone. [0005] In other words, when there is no burning thing, there is no other choice but to use natural energy. Take a look at that one solar. Now it is 168 yen per kwh. Tokyo daylight 5 hours, optical power conversion efficiency at 15%, for 1 m ² 3%
Only efficiency. Wind power is yours. [0006] Then, "There is no end, there is nowhere else on the earth, only available to anyone."
It is atmospheric pressure energy. When I 1m ² per power transfer, it is about 100kw. Furthermore, the atmospheric pressure fluctuation rate is small. In Tokyo, it is around 1.5%. This is a value that can be ignored. [Means for Solving the Problems] "How to use the energy of atmospheric pressure?" Fry the water up and drop it. Then, the hydroelectric energy of H = mgh comes out. Water one-ton 1m ³ is about 10m
When it comes down, it produces 98kWh of electricity. Since the efficiency of hydropower is about 85%, 83.3kw
h power can be generated. That is, in the present invention,
If 150 kg of water can be raised to a height of 8 m and dropped, then 11.99 kWh and efficiency of 85% are 9.99.
6 kwh. According to the Electricity Business Act, power generation of less than 10 kWh is free. In other words, "I can make it freely and use it."
That means. Japanese households average 1.1 kWh per hour
using. Then, "What happens if there is 3 kwh?
? "41.7 million units. 3 kwh × 4.17 × 10 ⁷ = 1.251
× 10 ⁸ = 1.25 billion kwh. "What is it?" [0011] This is 62.5% of 200 million kWh of power generation in Japan. According to MITI era data, oil 5
At 3.6% and 11.6% gas, 65.2% is comparable. Nuclear 12.9%, the sum of both will be 78.1%. About three quarters. According to the present invention, if power generation is performed at 3.75 kWh, which is 1.25 times that of the above, instead of 3 kWh per hour, oil, gas,
Nuclear power generation is not required. [0013] In other words, "The present invention is the energy revolution of Japan." To raise the water, the present invention uses "tricelli vacuum". The air in the vacuum chamber (4) above the riser is evacuated by vacuum. Whether the water is upright, inclined, or spiral, the water continues to rise to 10.26 m. The head is 10.26 m. The upper exhaust hole (5) of the vacuum chamber (4) of the water storage cylinder.
, And when the air inside is evacuated, it becomes closer to vacuum. Then, when the water discharge valve (9) at the boundary between the upper vacuum chamber (4) and the lower vacuum chamber (15) is opened, water falls according to "the law of gravity". Then, when the water is stored in the lower vacuum chamber (15), the valve (9) of the water reservoir (4) is closed. Then, the air suction valve (11) of the lower vacuum chamber (15) and the water outlet (2)
1) opens. So the water falls off. When falling from these water bottles, according to "Tricheli's theorem" Thus, when the amount of water fall is set to a desired value, V becomes the same as the length of the water column, and the radius of the water amount is determined by the length of the area of the water outlet. In the power generation, the water must be dropped continuously. However, at other times, the water may fall in a pulsating manner. Therefore, in the power generation, the water discharged from the lower vacuum chamber is temporarily put into a power generation water orch. The amount of water for power generation (24) is always larger than the amount of water falling every second. In the pulsation type, the lower vacuum chamber (1
Assuming that water is discharged once every two seconds from 5) to the water for power generation (24), if it is 10 times, the water falling to the water turbine will not be cut off. When the power is set in this manner, a constant amount of power can be generated every second. In these cases, there is energy in the opening and closing of the vacuum and the valve, but the electric power is less than 20% in the case of the power generation system, and the electric power stored at the start can be used. Apart from power generation, the energy used to operate the system can be considered as a cost. Either way, it is a useful thing for people with clean energy that does not stick. DESCRIPTION OF THE PREFERRED EMBODIMENTS [Part 1 Water rises] [FIG. 1]
There are water orchestras (1) placed on the ground or dug like this. There is water in the water orchestra. The riser (3) stands there. Above it is a water reservoir. The riser (3) is connected to this upper vacuum chamber (4). The upper water storage cylinder (4) is also an upper vacuum chamber, has an exhaust pipe (5), and is connected to the vacuum (7). There is a mouth at the bottom (4), which leads to the lower water bottle (15). There, valve (9)
If you do, the water must not fall down. In this manner, water is pushed up from the lower water orchid into the cylinder (15) by the force of the atmospheric pressure. [Part 2 Water drops. ] "What to do next?" Drops the water stored in this cylinder into the lower one. "Do this in a two-stage system with this machine." First, the lower vacuum chamber (15), which is the lower water storage cylinder, is first evacuated. It is not always necessary to make it 100%. What is necessary is just to determine and use according to a use. The lower water storage cylinder (15) is box-shaped. A vent pipe (12) is attached at the top, and a water outlet (2
1) is attached. There is a level sensor (14) inside. This is the form. At first, exhaust this box (15) using the vacuum (8) at the end of the exhaust pipe (11). At that time, vent pipe (12)
Is closed by the operation of the solenoid valve (13). An electric current flows through a solenoid located below the bottom of the lower vacuum chamber (15). Then, the upper part of the solenoid is magnetized and becomes the N pole. The magnet (1) at the tip of the shaft (17) under the valve (9) in the lower vacuum chamber
8) is repelled by N and N and pushes up the valve. That is, the ball valve (9) is connected to the magnet (1) below the shaft.
8). When the magnet (18) is pushed and raised, the ball valve (9) comes off the pedestal (10). As a result, a gap occurs. Since the valve has been opened, water drops from the upper water tank (4) to the lower water tank (15). At that time, "What happens in the upper vacuum chamber (4)?" Water rises without stopping from the riser pipe (3) and flows in. Successful water was minute constantly, from under the water orchestra (1), for 1 m ² 1.01325 × 1
Water is pushed up by a force of 0 ⁵ (N). This is the result of the power of atmospheric pressure, the result of the work of natural energy. Then, as long as the ball valve is open, water constantly flows into the upper water tank from below. However, 10m
Since the water level does not change, water does not enter the upper exhaust pipe (5). In other words, between the water level and the water level, there is always air. The air pressure can be arbitrarily controlled by the vacuum (7). In such a situation, the water is placed in the lower vacuum chamber (15).
We go in and the water accumulates there, and so on until the level sensor senses, "It's full." When the lower level sensor (14) detects that it is full, it stops. "How?" Stop the current flow of the solenoid (19). When stopped, the magnetism disappears. The magnet has no opponent to repel. Ston and fall down. That means that the ball valve (9) comes down to the pedestal (10), and sits down. That is, the valve closes. Water will no longer enter from top to bottom, and the upper reservoir (4) will return to its original state.
The lower water storage cylinder (15) is in a state where water has accumulated. Water drops from top to bottom in one second, stops, is released from bottom to bottom in one second, and then collects. When air is released in one second, it repeats at the tempo of Ichi, Ni, San. . "What happens if the sensor is filled with water now entering the lower water reservoir (15)?" What happens? The upper ventilation valve (13) and the lower water discharge valve (20) work simultaneously. Is set to Therefore, air enters from the upper ventilation pipe (12) and water falls downward from the lower outlet (21). Then, when the water falls from the lower water storage cylinder (15), the water level falls steadily. Then, when the level sensor (14) reads "high, koremade."
1) and vent valve (13) close. Then no air enters and no water falls. In other words, it stopped. Then, preparation for the next step is required. That is, exhaust is required. The exhaust pipe (1
The vacuum (8) at the end of 1) works, and the exhaust pipe (1)
The valve of 1) opens, and the air in the lower water tank (15)
It will be discharged out of the system, including those that have some air in the water. At that time, the remaining water in the lower water tank (15) does not move. Only air is exhausted, and therefore goes up and down. The air pressure is determined in advance, and the vacuum capacity is determined. [Part 3 Intermittent or Pulsating] "Why do you make water drop intermittently like this?" This state can be called a pulsating drop. That is the purpose of the present invention. "What is it?" Is due to the essence of "dropping water" in the first place. When water is sucked in a pipe, it comes up. An experiment was conducted in Yokohama on July 16, 2000. It has risen to 10.14m. It was a level that vaporized at 17.1 ° C. The water stopped there was just a "dragon-like rise" coming up the tube from the drum can below. The water was stored in the upper tank. When the water outlet at the lower part of the tank is opened, the downward force is D, and the force of the air applied to the surface of the water outlet is U. D <U The air is flowing more and more. D = U Stops when the balance is achieved. D> U Water falls. At that time the diameter of the outlet is 2m
m. The number of water tanks was one. Water is 20k in water tank
The g rank was put. The amount of water falling per second was only 15g. The larger the hole, the more water on top had to be. In other words, continuous waterfall was only possible under very limited conditions. In the present invention, there are two water reservoirs, one at the top and one at the bottom.
The air moves down on the water in the upper vacuum chamber. Similarly, the lower vacuum chamber is evacuated. It meant that the water would fall with a vacuum above and a vacuum below. The force acting there was always a downward force, gravity itself. In other words, "what does this mean?" Is exactly the gravity device itself. The conventional idea was that water moves in the atmosphere. Parallel lines do not intersect. When thinking like this, "parallel lines intersect." But they intersect when the situation changes. "Where?" In a sphere they meet at both poles. When viewed on the earth, parallel lines at the equator will be mixed at the North and South Pole. "It is a transformation of the idea similar to this." For the first time, I created a state of "putting water between vacuums" and let it fall from top to bottom only by the force of gravity. I don't think anyone thought this. I had a patent attorney search for patents and utility models for 20 years. To the best of my knowledge, none was the same. [0050] The place is different. With air and air, the water falls off quickly. In vacuum and air, if D <U, air will enter and water will fall. Furthermore, if D = U, water does not fall. If D> U, it falls. But with a vacuum and a vacuum, water always falls. In this pumping machine, which I named the aerator, "water goes up in vacuum and the bottom goes down in vacuum." The place is completely different. In this way, there was nothing to raise water. And, as a result, aside from intermittent or pulsating, the water always falls discontinuously. As a matter of course, it moves because there is energy. Water is pushed up in this riser
The water orchestra takes the power of 1m ² per 100 tons, and is that a value of about 100kJ in the energy is given. [0053] That is, "coming into the upper water bottle". The head is 10m. If 300 kg of water accumulates now, F = mgh. F = 300 (k
g) x 9.8 x 10 (m) = 2.94 x 10 (N). The energy is 29.4KJ, and the power is 29.4KW. Then, a vacuum is created above the head. Looking down, when the lower water bottle is evacuated, it is close to vacuum. In practical machines, vacuum is not necessarily used, because the vacuum capacity can be freely limited. As a matter of fact, the upper part is Karappo and the lower part is Karappo. Water just falls down [0055] In other words, the force that causes water to fall down is gravity. It exists anytime, anywhere, and anywhere, and does not stick. We use energy to do this. It is mainly vacuum. However, in this atrator, the vacuum energy used is 7 for water and 10 for downward force, the upper vacuum is 1 or 2, and the lower vacuum is about 2 or 3. Then, in this system, it is obvious that "the output is larger than the input." Humans have invented "leverage" in an attempt to gain even a little. You can move heavy things with just a little force. It's the same as that. "Let's take care of money without breaking a dollar" is too good for insects. Not baseball as a whole, but 3
It is good to be able to get around 5 minutes. It is a device that can do that. A device named my aterator, using electricity, operating a vacuum to raise water from below, and then vacuuming the lower vacuum chamber using a vacuum to convert the upper water into it. Drop it, so it's a two-stage structure that drops water. There is energy input, but as a whole there is a benefit. It is the same idea as leverage itself. Therefore, it is born in various ways. The water can be dropped continuously by placing a water tank on the way. Figure 4 shows this. Water enters the water storage tank (24) from the pump. Then, it falls down the water pipe (27), hits the lower water wheel (28), turns it, activates the generator (30), returns to the water orchester (1), and blocks the millet with the bubble prevention plate (31). Again, the water goes up through the riser (3) and repeats this. In the embodiment shown in FIG. 4, a pump-down machine called an aerator is shown on the left. Water intermittently enters the water tank of the micro-hydro generator on the right from the outlet below. The entered water is stored in the water storage tank (24) at the water level (2
5) The water itself fluctuates, but the water itself is
From 6), it falls continuously through the waterfall guide pipe (27). The dropped water is turned around a water wheel (28). The generator (30) is turned through the bearing (29) of the water turbine (28). It generates electricity. The water falling down the waterfall guide pipe (27) is continuous. Assuming that the amount of water fall is 1 unit, when 12 units enter the water storage tank (24), if the water falls intermittently from the outlet (21) of the lower water storage chamber (15) every two seconds, If the amount of water injection is doubled, the balance will be balanced as a whole. In this case, the water is intermittently stored in the water storage tank (24).
, And continuously drop the water and keep turning the waterwheel. In other words, "I can generate electricity." In this way, the atlator can be used for power generation. Since the present invention is configured as described above, the following effects can be obtained. When the end of the riser of this pump is extended under the water orchestra, and in the sea, it is lowered to the region of deep water, so that deep water can be pumped. Even if it is not so deep, if it enters the groundwater area, it can also draw groundwater. In Southeast Asia, Africa, etc., Norwegian engineer Gunnar. Burns invented (in the 1880's) a foot-operated water pump draws 50 kg of water per hour for about four hours for adults, earning an average of $ 100 per pump, or about ¥ 10,500. The cost of one vehicle, about 3765 yen, can be recovered in one year, so it is currently used all over the world, and the number in Bangladesh alone is over 1.2 million. Looking at productivity, 2
It increases the productivity of 50,000 ha of farmland, bringing in $ 3.52.5 billion a year. The pumping amount per second of this foot pump is about 14 g. Any number can be set using my atlator. In this case, an aerator for power generation is set in the center of the settlement, and electricity is taken from the aerator, and water is fetched by a radially installed water fetching aerator to sprinkle water on agricultural lands so that the harvest can be raised. Real ODA to increase the survival of underdeveloped countries
Will be useful enough. When pumping water from seawater, 3
Breathe in% air. When the water is cold, the air inside is also cold. The air is Ojama insect. However, it can be used as cooling air. That is, the use for cooling can be found as an effect. Further, when attached to a ship, braking, acceleration, and direction control can be performed according to the direction of the water discharge. Further, a great effect is that "when used in layers, water can be raised to a much higher level."
Since it can be raised to 20,000 kW, it can generate power without rest unlike before. It is the birth of a new energy. Ends with

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view of a pulsating pump. FIG. 2 is a view in which a valve opens from an upper water storage chamber and water falls. FIG. 3 is a view in which water falls from a lower water storage chamber through a water outlet. FIG. 4 is a diagram in which a pump and a waterfall are connected to a micro hydraulic power generator. [Description of Signs] 1 water tank 2 filter 3 riser pipe 4 upper water storage chamber 5 exhaust pipe 6 level sensor 7 vacuum pump A 8 vacuum pump B 9 valve 10 valve seat 11 exhaust pipe 12 vent pipe 13 solenoid valve 14 level sensor 15 lower water storage Chamber 16 Bearing 17 Shaft 18 Permanent magnet 19 Solenoid 20 Solenoid valve 21 Water outlet 22 Water fall 23 Water surface 24 Water storage tank 25 Water level 26 Water fall 27 Water fall guide tube 28 Water wheel 29 Bearing 30 Generator 31 Bubble prevention plate

Claims (1)

Claims 1. There is a riser (3) installed in water. Above this tube (3) there is a spherical or box-shaped vacuum chamber (4). Below that is another box that is a water bottle. Lower vacuum chamber (15). With such a device, when the air is evacuated by the vacuum (7) connected to the exhaust pipe (6) of the upper vacuum chamber (4), the water in the lower water orch (1) is pushed by the atmospheric pressure and rises. I do. 10. On earth
Although it does not rise more than 26m, here the head is 10m. Water accumulates in the water tank (4). There is a water outlet under the water tank (4) and a valve (9) is attached. When the valve (9) is opened, water enters the lower vacuum chamber (15) below it. At this time, since the lower vacuum chamber (15) has the air exhausted from the exhaust port (11), the lower vacuum chamber (15) is in a rough state. Water falls by gravity into the lower vacuum chamber and accumulates there. When a certain amount of water is collected, the water discharge valve of the water tank is closed. Then, the exhaust of the vacuum in the lower vacuum chamber (15) stops, and the valve at the inlet of the air chamber above the lower water tank is opened. Therefore, air enters the lower vacuum chamber (15) from the upper air charging valve port (12), and the water in the lower vacuum chamber drops at once from the lower water discharge port. A water pumping / falling device equipped with such a device.