DE102008016009A1 - Device for producing electrical energy by buoyancy force in water or blow force in air for use in e.g. waterbody, has wheels installed on shafts, where one shaft is held sealingly by side wall of container to transfer torque to generator - Google Patents

Abstract

The device has a compression-tight container (16) sealed with a cover (1) and including three pipe lines (2, 3, 17) guided from inside. Shafts (6, 14) are installed in middle on a side of the container, where wheels (7, 15) are installed on the shafts. Vessels (13) are fastened relative to each other with regular distance such that an open side of one of the vessels is aligned to a closed side of another one of the vessels. The shaft (6) is held sealingly by a side wall of the container for transferring torque to a generator.

Description

The Demand for green energy sources is so relevant today like never before. At the moment great progress has been made

energy by wind, solar cells, wave energy in the waters too to produce. The disadvantage is that the Wind turbines negatively affect the landscape and by the geographical Conditions not everywhere can be set up. For the larger solar power Energy stations must also several square kilometers of landscape will be sacrificed.

Of the gegenwertig biggest disadvantage Concepts are the high production costs.

The new device can be used in both waters, by the wave pumping stations compressed compressed air can be used as an independent power plant as well as on land from all compressed forms of air, gaseous or liquid Substances work. The device is also for recovery of energy best suited by the between utility company and consumer is installed because the gas, air or water which are already partially under a high pressure. After Usage can be the substance to the consumer largely appropriate and be passed on without losses.

Further important advantages are that device no waste caused and can be produced in any size and capacity and that the Production costs are not to be expected high.

Device for generating electrical energy by the buoyancy force in a liquid substance and falling force in the air or other gaseous substance consists of the container ( 16 ) Drawing 1. In the middle of one side of the container are two superimposed shafts ( 6 ) ( 14 ) Installed. On the wave ( 6 ) is a wheel ( 7 ) with the hub firmly. An end of the wave ( 6 ) is carried out through the wall of the container to the outside, in the warehouse ( 19 ) and is connected to the shaft of the transmission ( 20 ) connected. The shaft of the gearbox is connected to the shaft of the generator ( 21 ) connected. The lower shaft ( 14 ) is installed in a warehouse and carries a wheel ( 15 ). The upper wheel is with the lower form-fitting with the drive belt ( 12 ) connected. On the drive belt are the vessels ( 13 ) with a regular distance from each other and with the open side against the direction of the drive belt attached. In each of the vessels ( 13 ) on the side to the drive belt is a short pipeline ( 9 ) introduced sealed.

Inside the vessel is the pipeline ( 9 ) with the pressure valve ( 27 ) Drawing 2. connected. The pressure valve is installed on the side of the drive belt. On the housing of the pressure valve is the joint ( 25 ) through which the lever ( 24 ) is installed. On the lever is by means of the threaded pin ( 23 ) the float ( 22 ) attached. The pipeline ( 9 ) is connected to the hose line ( 10 ) connected. The hose line ( 10 ) is installed from vessel to vessel and with all piping ( 9 ) connected. Hose line ( 10 ) is by means of pipeline ( 5 ) with the hose line ( 8th ) connected. The pipeline ( 5 ) extends beyond the wheel boundaries so that the hose line ( 8th ) does not come into contact with the moving parts of the device. The hose line ( 8th ) leads to the middle of the side opposite the side on which the shafts are installed and there is the one with the rotatable coupling ( 11 ) connected. The rotatable coupling ( 11 ) is connected to the external wall ( 2 ) connected.

The device works like this:
Container ( 16 ) is filled with water so that all vessels ( 13 ) are under the water. Through the pipeline ( 2 ) Compressed air is supplied whose pressure is higher than the water pressure in the lowest point of the device. Because the pipeline ( 2 ) the rotatable coupling ( 11 ), Hose line ( 8th ), Pipeline ( 5 ), Hose line ( 10 ) and piping ( 9 ) are continuously interconnected, the air in which can distribute evenly unhindered and reach all attached to the drive belt vessels. Once a vessel ( 13 ) bypasses the second half of the lowest semicircle, comes the float ( 22 ) Drawing 2. in the position in which he pushes the force of impact of the water up, while he presses on the lever ( 24 ) which consequently acts on the valve piston ( 26 ) and thus the valve is opened. The air flows into the vessel until the float ( 22 ) has reached the preset levels in the vessel and stops the pressure on the valve piston, thus the valve is closed. With the supplied amount of air, the vessel pulls up by the Auftiebskraft of the water and thereby the drive belt is pulled. The closing point of the valve can with the nuts on the threaded pin ( 23 ) and fixed. When setting the closing point must be noted that the air expands under water and in the vessel so much air must be supplied so that expel from the prematurely no expansive air leaking over the edge. The filling process happens with each vessel that has circled the lower wheel. The vessels filled with the air pull through the water buoyancy of the belt drive ( 12 ) upwards which makes the wheels turn and through the shaft ( 6 ) is the rotational energy to drive the generator ( 21 ) transmits.

Once a vessel has the upper wheel ( 7 ) and has circled the upper semicircle, the air flows out of him because of the tipping process and fills with water at the same time and is with the belt drive ( 12 ) pulled down on the other side. Because of the orbit of the upper wheel semicircle, the air will escape due to inclination of the vessel. At the same time the internal level of the water in the vessel changes and overcomes the float ( 22 ) by the Auftiebskraft and the valve ( 27 ) to open. But this is undesirable in this moment and is due to the joint ( 25 ) prevented in that can swing at the inclination of the vessel, the lever with the float to the side. That's why the valve ( 27 ) and at the completed orbit of the wheels of the float is directed by the buoyancy upward and does not exert pressure on the valve until he returns the lower wheel ( 15 ) has orbited. On one side, the vessels are filled with air, float upwards, let the air out at the same time, fill up with the water at the same time and lower off on the other side. So it works continuously, as long as in the pipeline ( 2 ) Compressed air is supplied which has the higher pressure than the water in the bottom of the container. The air which has transported the vessels upwards and has escaped from the water, can through the pipeline ( 3 ) for further use. If the compressed air is no longer needed, which also via the pipeline ( 3 ) flow unhindered into the free.

Example 1:

Drawing 5.

In the device, other gaseous substances can be used instead of the compressed air which brings a recovery of energy. Without technical modification, the gas in the pipeline ( 2 ). And the function will be the same as with the air. For further use, the gas is passed through the pipeline ( 3 ).

And that is how it works:
Suppose gas is supplied at a pressure of 20 bar into a device which has a depth of 15 meters. The water pressure in the lowest point is 2.5 bar. However, the gas must continue to be used, for example in a heating system. The operating pressure for the end user Must be assumed 4 bar. Before the gas can be removed from the device must first arise this pressure in the upper part of the container. During the start-up phase, all output lines must remain closed.

With the, in pipeline ( 2 ) supplied gas, the device will work and the gas with the vessels brought up where it compresses and the pressure increases. This means that the back pressure also increases and the water pressure in the bottom of the container increases by 4 bar and reaches 6.5 bar. However, since the supplied gas is still 13.5 bar higher, the device can continue to function. Once the pressure is reached, the gas can be supplied with the necessary pressure of 4 bar through the pipeline ( 3 ) continue to be passed without losses to the heating system. It is important to adapt that the further used gas always gets the necessary amount of gas through the vessels. Here it plays a role how many revolutions per minute make the waves of the device, how big the resistance of the generator is and the amount of gas taken off. Since the device can be made in any size, it is also possible to produce a corresponding device for each gas system.

Example 2:

Drawing 6.

Instead of Air or gaseous Substance can also be a liquid Substance by falling force in the device generate energy. To the Example water.

The Function with the liquid Substance is just the opposite of how it is with air or gas, but it must also no technical changes be made.

The water level in the tank is passed through the pipeline ( 18 ) until all vessels have been cleared of water. Then the container through the pipeline ( 4 ) with the air to the pressure necessary for further water use. For example, 4 bar. With the pressure usually the water is delivered to the households. Into the pipeline ( 2 ) Water is z. B. introduced at 15 bar. The water is distributed in the hose lines and is now passed through the valve ( 27 ) fill the vessels with the open side upwards. In this case, the float opens the valve in this case not by the buoyancy force as with the air or gas, but by the falling force and makes the valve when reaching the preset level tap because the float floats with the water and the pressure of the lever on the valve piston ( 26 ) stops. The float must therefore be heavy enough to open the valve. But since effective leverage acts here, the float can be designed for both buoyancy and traction. The force of gravity of the water pulls down the filled vessels and causes the wheels to rotate in the same direction as well as being driven by air or gas.

Arrived at the bottom, the vessels start tilting by circling the lower wheel and empty themselves from the water. When tilted, the level in the vessel changes and the float moves laterally to the position where it can exert pressure on the valve piston. But because the joint ( 25 ) can escape downwards this is prevented. The empty vessels follow the drive belt upwards while the falling force does not allow the float to push on the valve and it remains closed. Thus, the device will function by the falling force of a liquid substance in the air or gaseous substance and bring the rotational force to the generator.

The water evacuated by the vessels collects at the bottom of the container and is passed through the pipeline ( 17 ) into the water network without losses.

Of the necessary Delivery pressure is regulated by the water supplied to the vessels. Important is to adapt it to the further used Water always replenished the necessary amount of water through the vessels gets.

1

container lid

2

pipeline

3

pipeline

4

pipeline

5

pipeline

6

upper wave

7

upper wheel

8th

hose

9

pipeline

10

hose

11

rotatable clutch

12

drive belts

13

vessels

14

lower wave

15

lower wheel

16

container

17

pipeline

18

pipeline

19

ball-bearing

20

up gear

21

generator

22

float

23

Set screw

24

lever

25

joint

26

piston of the pressure valve

27

pressure valve

Claims (24)

Device for generating electrical energy by the buoyancy force in a liquid substance or falling force in the air or in another gaseous substance characterized in that a pressure-resistant, with the lid ( 1 ) sealed containers ( 16 ) at least three pipelines ( 2 ) 3 ) 17 ) has executed from the inside and on one side from the inside two superposed waves ( 6 ) ( 14 ) on which wheels ( 7 ) ( 15 ) are installed the the drive belt ( 12 ) positively connects and several vessels ( 13 ), which are fixed at a regular distance from each other so that the open side of a vessel is directed to the closed side of the other Apparatus according to claim 1, characterized in that at least one of the shafts ( 6 ) or ( 14 ) through the side wall of the container ( 16 ) is sealed to the outside to transmit torques to the generator or other machines Device according to claim 1 and 2, characterized that on the wave that is carried out to the outside, at least one wheel is firmly connected to the hub. Apparatus according to claim 1, 2 and 3, characterized in that on the shafts ( 6 ) and ( 14 ) more than ever a wheel can be installed while the width of the wheels can be different. Apparatus according to claim 1, 3 and 4 characterized that the Wheels round or polygonal Apparatus according to claim 1, 2 and 4, characterized in that in the middle of the inner wall is opposite to the wall at which the waves ( 6 ) and ( 14 ), the rotatable coupling ( 11 ), the twisting or misjudging the hose line ( 8th ) during the rotation of the drive belt ( 12 ) prevented Device according to claims 1 and 6, characterized that the device can have multiple drive belts. Apparatus according to claim 1, 6 and 7, characterized that the Triebriemen can also be toothed belt or chain Apparatus according to claim 1. 6. 7. and 8. characterized characterized in that Vessels both attached to the drive belt as well as between the drive belts can be if more than one drive belt is available. Apparatus according to claim 1, characterized in that all the vessels ( 13 ) with the hose management ( 10 ) by means of pipelines ( 9 ), which penetrates into the interior of the vessels, are connected. Apparatus according to claim 1, characterized in that in the pipeline ( 2 ) Compressed air or gaseous substance is supplied, if the Auftiebskraft is to be used in the liquid substance, while the wheels ( 7 ) and ( 15 ) is completely covered with the liquid substance Apparatus according to claim 1 and 11, characterized in that in the pipeline ( 2 ) Water or other liquid substance is supplied, if the falling power of the liquid substance in or gaseous substance or in the air is to be used, thereby the wheels ( 7 ) and ( 15 ) in or gaseous substance or in the air Apparatus according to claim 1, 11 and 12, characterized in that the liquid or gaseous substance or air is conveyed through pipeline ( 2 ) the rotatable coupling ( 11 ) Hose line ( 8th ) Pipeline ( 5 ) Hose line ( 10 ) and piping ( 9 ) to the pressure valve ( 27 ) in the vessels ( 13 ). All of them are so connected with each other that the substance in which is distributed unhindered and evenly Device according to claims 1, 10 and 13, characterized in that each vessel ( 13 ) on an inner side a pressure valve ( 27 ) connected to the pipeline ( 9 ) connected is. Apparatus according to claim 14, characterized in that the pressure valve ( 27 ) with the lever ( 24 ) can be opened or closed by the action of buoyancy or fall force. Apparatus according to claim 15, characterized in that on the lever ( 24 ) by means of threaded pin ( 23 ) the float ( 22 ) is attached. Device according to claims 14, 15 and 16, characterized in that the pressure valve ( 27 ) by the hinge connection ( 25 ) with the lever ( 24 ) and that the articulated connection ( 25 ) the pivoting of the lever ( 24 ). Apparatus according to claim 14, 15, 16 and 17, characterized in that the closing and opening point of the pressure valve ( 27 ) with the nuts on the threaded pin ( 23 ) and thereby the float ( 22 ) the distance to the lever ( 24 ) changed. Apparatus according to claim 1, 11 and 12, characterized in that a liquid or gaseous substance, or air in the closed container ( 16 ) is supplied to generate energy by falling or buoyant force in this container and then the substance used is taken for another purpose. Apparatus according to claim 1 and 19, characterized in that from the pipeline ( 3 ) the air or gaseous substance is removed for further use Apparatus according to claim 1, characterized in that from the pipeline ( 17 ) Water or other liquid substance is removed for further use. Device according to Claim 1, characterized in that the device is also without a cover ( 1 ), if no substance is to be removed for further use, only the buoyancy force in the liquid substance can be used and into the pipeline ( 2 ) is supplied gaseous substance or compressed air. Device according to claim 1, characterized in that the container ( 16 ) except the three pipes ( 2 ) ( 3 ) and ( 17 ) may have further piping necessary for filling and emptying the container. Device according to claim 1, characterized in that the device submerged in the waters, even without covers ( 1 ) and side turning of the compressed air or other gaseous substance can work, while the waves ( 6 ) ( 14 ) and the rotatable coupling ( 11 ) are mounted on a frame which simulates the rotation of moving parts similar to the container (fig. 16 ).