DE4314820A1 - Water turbine (hydraulic turbine, water wheel) driven by low pressure - Google Patents

Abstract

Up to now, relatively large heads (levels, heights) have been used in order to send water over a water wheel or in order to drive a turbine. My solution can be used in any desired river (stream), in order to generate the water vortex (eddy). A minimum degree of damming is required in the case of very sluggishly flowing waters (bodies of water), because there is no need for large differences in water head. This water vortex can be used to obtain energy in small systems having an insertable rotor and electric generator. However, it is advisable in the case of larger systems to use self-floating rotors which have a shaft in the middle. A pick-up arm (tapper arm) or bridge is swivelled over the latter and connected to the shaft. In my opinion, this is a good step towards living in harmony with nature. Again, it could also create urgently required jobs. Moreover, a large number of small systems replace an atomic power station.

Description

The invention relates to a water turbine. Which manages with little water gradient. We can on larger rivers, built into floats. Which induce on the shore like ship moorings are core. By lifting and lowering, ever adjust the water level.

On small rivers you can avoid traffic jams layers were used.

At locks or other higher water differences You can also build several in a row.

The drawing Fig. 1 is a top view.

Fig. 2 is the side view.

The water comes from the right into the storage space No. 1 , from where it can only be accessed via inlet opening No. 2 in the swirl chamber No. 3 can reach. Before the suction shaft no. 4 reached down, it must first the rotor No. 5 drive.

The rotor no. 5 can easily be placed in the swirl chamber in smaller systems with a lid and power generator.

The system runs best when the inlet opening no. 2 has the smallest cross-section of the whole system. Because we can achieve the highest possible swirl speed.

Now to drawing Fig. 3 and 4, these are top view and side view again.

We take this drawing for a larger one Investment. I only drew 4 inlet nozzles can also be used more. Just the cross section must be correspondingly smaller than the suction cross section. So that we achieve the highest possible swirl speed. Let's say the plant has ten meters in a row knife. Because the rotor would be too heavy now let’s build the plastic rotor here. When floating saucer, with correspondingly many Carrier sheets. So that we take off the energy the floating rotor in the middle a wave. Where we have a customer arm swing over, or a bridge over it can drive.

I hope this is a good step in the right direction direction. Because I know, that nature resents us various things. And nature has the power to us to avenge.

Claims (5)

1. Water turbine, driven with little pressure, characterized in that we drive it through an artificially generated water vortex. 2. We can put the turbine in any major river deploy, characterized in that they are floating body is built, and by lifting and Lower like a ship's jetty ever adapts to the water level. 3. Smaller turbines are characterized by that we have the rotor with cover and generator just put on the swirl chamber. 4. Larger systems whether floating or solid Poured concrete. Are characterized by that they have multiple injectors, which still have to be much smaller in cross section than the suction shaft. So that we can achieve the highest possible swirl speed. 5. Because the rotor is too heavy in larger systems we build the rotor out of plastic as floating saucer. With a corresponding number Carrier sheets.