DE4029150A1 - Belt with hollow bodies for energy production - has water tank and wind turbines, incorporating wind collectors - Google Patents

Abstract

The band carries 32 square hollow bodies, with hydrodynamic tip, and it moves over 3 pulleys, forming a continuous chain. The hole is placed in a water tank. Several bodies are filled with compressed air, causing an imbalance between two sides of the band, and this rotates the band. Wind collectors are used to provide the air.

Description

1) In this case there are 32 square hollow bodies with a hydrodynamic tip. They are attached to a belt that runs over 3 rollers and thus forms a closed chain. Put everything in a large water container, but it doesn't move yet since both sides, right and left, are in balance. That should change if: An air tube is led into the water of the tank from below. It lies under the hollow bodies and ends at C 1 . Zvi rule B 1 and C 1, it has a row of apertures in the direction of the hollow body, from which strong jets of air come. (After completing the description, I deal with the air pressure source.) - The air pressure fills the hollow bodies from below and pushes the water out. 5 are filled at the same time. With this, the balance is disturbed and the right side of the belt gets buoyancy, it weighs less than the left side. The belt is in motion and new hollow bodies are constantly filling with air, while at the top they bend down again and then fill with water. It is sure that at least 10 hollow bodies are always full of air, which would guarantee a uniform speed of rotation. Assuming that each hollow body holds 50 liters (50 kg) then the apparatus would turn the upper axis with a power pressure of 500 kg, billed a few kg because of the resistance of the water and rotating mechanism. The apparatus is easy to build and narrow like the treadmill itself. B. 10 pieces in a row next to each other, connected with a common axis, the work output would be 5000 kg, (less the previously mentioned resistances).

In the large container, you can add a few panels E and F to prevent possible water turbulence. It would a steady rotation in the water and so on with which the water resistance can be reduced. The apparatus could turn a little faster. The difference between the two specific weights cannot be affected.

2) Description of a hollow body. (For the purpose of clear presentation it must be from 2 to 5 on a larger scale).

Its tip is flexible. When immersed, it becomes water push a bit backwards so that there is an opening at the front arises and the hollow body fills up easily. So everyone would have to the left side (sketch 19 without tip if the tape is in Would be movement. When the hollow body rises, the closes Air pressure the tip automatically.

The next sketches show additions to the effectiveness of the air secure radiation without losing too much air.  

The greater part of each hollow body is in its Halved longitudinally by an intermediate wall so that the incoming air rises along the wall and that Water up at its end and then on the other side the partition pushes out backwards.

The partition is to the rear over the dimension of the hollow body extended to thereby have a good connection to the fol to allow the relevant hollow body. This is supposed to keep the air under the Partition wall to be effective and not to escape to the other side chen.

4a) In the air loading zone (sketch 1, B 1 to D), the hollow bodies pass through an air guide rail in the height up to the intermediate wall (like a flower box without transverse walls), which should also hold the air volume together. The zone is hatched horizontally on sketch 1. Between C 1 and D there are 7 sloping panels that are supposed to direct the air that is still escaping into the hollow body.

5) This is a perspective sketch for easier understanding. The air duct would go up to that. . . . . . . . puncture Reach the third line to the level of the partition. When climbing, the air pressure has the tips of the hollow bodies closed.  

application

The apparatus is designed to enable everyone to have enough energy available without poisoning the environment. With its mass application would involve warlike complications, such as they threaten in the Arabian Gulf Zone, do not arise at all. You can put it almost anywhere to give it an air flow to be able to supply. It is not restricted to rivers and dams bound. As a result, the huge cost of overhead lines is falling the power plants gone. Everyone should be able to buy a device be to open up additional sources of power for home and profession. You could have a more extensive electrification to reach. One would particularly like the picture of big cities can improve, because today you are mostly in front of one Infarction favorable traffic chaos: anger about queues, traffic jams with loss of time, fear of billiards and the haze bell we glide almost every day. - the modern city should look like this see: on their periphery are large, covered and guarded te parking lots where everyone has to leave their car. Next door there are small, 2-3-seat electric cars available for rent. Man can also buy it. They resemble the Messerschmidt or the BMW cabin scooters after the war, possibly built higher. The Showman idea, a shockproof rubber tire all around to bring (electric scooter), one should respect. All tank keep standardized, cheaply charged by tapes batteries battery packs ready for replacement. Other drivers are stiff to the subways and e-buses. The top speed was set at 40 km in the urban area. If so, then the E. wagons could not drive faster, no one would overtake and carambulage would be without significant damage. The driving witnesses would have to be narrower and shorter than a car, so that min at least 2 pieces should fit on the previous car places. Even on the side of the road, previously no parking, would be tens of kilometers long parking strips are created. Traffic would be more fluid because more cars could stand next to each other and drive. The snakes too in front of the traffic lights would be shorter (because shorter cars) etc. Result: A happy city full of good air, an almost noisy one loose traffic because the motorcyclists also switch to E. cars or on bicycles), no more fatalities in the City, lower insurance amounts and very important: Man could be back to work on time WITHOUT hours earlier you have to get up and get home earlier in the evening! The vision of a human-friendly city, attainable through cheap energy, simple technology and modesty with rational city car. That saved by low oil imports Money is used to perfect the city bypass roads, where there is still space for luxury cars.

The nature of the energy indicated above is completely different from the previous burning of fossil reserves of power that gave us the Nature for a limited time. We find it difficult powerful in every moment, since eternal primeval times. It is for human Terms inexhaustible. It is inconceivable that this energy we could become less, even if billions of hollow-body devices would run. - Certainly humanity will succeed this primordial force of space in an even more elegant way do. - The controversial UFOs should already know.  

description Wind collectors as drive means for the hollow body belts

Where there is wind, on plains, mountains or by the sea, you should use it use.

6) This is the perspective view of an octagonal dome buildings around and above eight wind funnels, Windkol are built. (You can only see four here.) You should take up the wind pressure, compress it and into the middle of it the dome center, the vertical pipe (i) guide where the hollow body bands are lined up.

7) Floor plan. The letters a to h are the 8 collectors. The double line is the perimeter of the dome (machine hall)

8) cross section. 2 wind collectors are visible here. Your Tips open in the central tube (i), which is in 10 thin nere tubes branched to a battery of 10 bands of air supply pressure. - Because the wind collectors are buckling the dome would adjust upwards, the ingress of rain amounts of water in the machine room can be prevented. The rest of what At RW you let it run in a safe pit. An outflow Pipe would be unsuitable because it would also create air pressure would give way.

With every possible wind direction, 2 angle collectors are used get full wind pressure. The funnel tips of the other 6 Collectors must be used every time to avoid loss of power be closed. With the help of a clap moved by the wind itself pensystems on the flat roof of the building would be possible. The machine house does not require windows and ventilation. The of Air released from the tapes is unused and becomes plentiful be. Glass stones can be built in to illuminate. The entrance must be below ground level.

After commissioning the hollow body belts, the air can soon be released pressure rise in the dome, so that the doors to one rose should leave open.

In another way, the supply of air would also be possible if you have a hollow body tape with the help of a compressed air bottle makes it spin. A wind blower mounted on its axis could for a battery of 10 hollow straps and for the ini tialband itself take over the air supply and the compressed air bottle would become superfluous. I firmly believe that produced energy is enormously higher than the power that the Air jet requires that a real self-sufficiency + Useful output is possible: after expelling air into the Water itself activates the gravitational energy thanks to the Difference of spec. Weights between water and air. You ver automatically pushes the water out of the hollow bodies, fills them and forces the belt to keep repeating the rotation. You invest little power to get much more energy.

Claims (3)

1. Conveyor belt with hollow tanks, which are placed in a water container for energy production, characterized by an installation in a water container, where several tanks fill with air pressure, which causes an imbalance between both sides of the belt, which rotates the belt. 2. Conveyor belt according to claim 1, characterized by the shape of the tanks and their peculiarities, which is the rapid filling and emptying of the tanks with air or enable with water. 3. Conveyor belt according to claim 1, characterized through architecturally grouped wind collectors.