NL1037128C2 - THE DEVICE SHALL CREATE AN ALTERNATIVE ENERGY SOURCE BASED ON SUSTAINABLE WATER TECHNOLOGY BECAUSE THE REPEATING POWER LEISED BY THE RISE OF THE WATER LEVEL IN HEAVENLY WATER BASIN AND NATURAL WATER CONVERTED IN APPROPRIATE ENERGY OF THE ENERGY OF THE ENERGY OF ELECTRIC ENERGY. - Google Patents

Description

The device forms an alternative energy source based on sustainable water technology in that it converts the repetitive force that is released when the water level rises in rainwater basins and natural waters into usable energy in the form of electricity, compressed air or vacuum.

The problem that this device offers is the need for cost-effective alternative energy sources. This need has arisen due to the increasing scarcity of fossil energy sources and the environmental-polluting effects of fossil fuels. This makes it necessary, in addition to the current wind, water and solar technology, to find a solution in other, inexhaustible and sustainable energy sources that are continually offered by nature, or that can be generated, and which have not been used to date. left.

The device for which a patent is being applied for here, a Water Level Force Converter and that further with the abbreviation W.N.K.O. will be indicated is a mechanically operating device whose main functional technical purpose is 20: converting into electric or other energy the force exerted by the upward pressure of water in combination with the rise of the water level in water basins and open natural waters.

The W.N.K.O. device is a device that consists of six main working parts: 1) Float body (plastic or metal); 2) Gear drive chains (metal, possibly different); 3) Gears, sprockets, rollers; 4) Reverse Delay Gearboxes / Gear Units (metal, possibly different; 5) Chains, belts, cables (metal, plastic, possibly 30 different); 6) Alternator (alternatives: compressor or vacuum installation).

The Dynamo can take any desired form: bicycle, car, boat, turbine, and windmill dynamo. All parts are moving parts and are connected to each other by chain or coupling.

The device is partly placed in and on the water (floater) and partly makes use of a fixed point relative to the changing water level.

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The device uses the environment in which it is placed (basin construction or bottom or wall of open waters) and the height differences in water levels that: a) occur naturally (sea, tides, rivers) or b) 5 differences in height achieved through of people such as the collection of waste water and rainwater through roofs of existing or to be built buildings in basins or differences in height in locks and related architectural works.

The device can exist in many sizes and dimensions which are determined by the available water supply and the need for energy. The scale of the device can vary in connection with the environment in which it is placed, such as a rain barrel, sea container, residential home, apartment floor, office floor, flood plain, oil rig, polder etc.

The device meets the need for alternative energy sources and does not itself use other energy as described here.

The device generates electrical energy, compressed air or vacuum which can be used for purposes to be determined by the user.

The device can be placed and used in both artificial water reservoirs (fed by, for example, rainwater) and in open waters with tidal difference, the dimensions and the energy to be supplied also being determined by the size of the available water supply and the height difference to be achieved per unit of time. of that stock.

The device has a repetitive, if possible, continuous operation, that is to say it can in principle be used endlessly for the purposes described herein.

Taking into account the process sequence, the device is arranged as follows. A vertically movable but guided float is located at the surface of the water and is outside the water by means of a chain in connection with a gearbox which is fixed. The gearbox has a drive gear on the driver side. The chain is not closed but attached on one side to the floater and fixed on the other side at a point 'ashore'. After the first gearbox, the intervention of 3 multiple gearboxes is possible. This setup is then linked to a dynamo / alternater.

A number of phases can be distinguished in the operation of the device. During the pre-operation phase, water is collected and collected, or tides change, increasing the water supply in which the floater is located. Subsequently, four phases can be distinguished in the operation of the device itself: A. Floater will make a vertical movement due to the upward pressure of the water and the rise in the water level. It thereby exerts tensile force on the drive chain connected to the float which also runs over the gear of the gearbox. The chain grips the sprockets and exerts tensile force on the sprocket, which then rotates. This is about the slow side of the gearbox. The gearbox has a shaft. The axis rotates faster by factor x on the outcome side of the gearbox than on the driver side; B. The gearbox is driven in this way when the water rises. The gearbox is tuned with such a gear 20 that the dynamo can be operated to the maximum; C. The gearbox in the arrangement is connected to a dynamo that generates electrical power. The ultimately increased speed is converted here to the speed of the dynamo which converts it into electric current; D. The floater is automatically brought back to starting position A. after operation and the maximum water level has been reached by a freewheel mechanism and by the water falling. Finally, during the post-operation phase the tide will decrease or the water basins will drain to a level where this can be rehearsed, or the water can be used for other purposes (agriculture, gray-water circuits) and there will be new supply of water place. With open natural water, a new tide will ensure new supply and operation of the device.

An open front view of the device is schematically made. A drawing of an alternative type is also included. The device is explained in more detail below with reference to these figures.

Figure 1 shows the basin 1 or reservoir of the liquid. This can be an independent or integrated structure in 4 buildings. The types of material can vary from concrete or stone to metal and plastic. The drawing also shows the float body 2. This float made of metal or plastic will undergo the upward pressure of the liquid and will perform vertical movements.

Furthermore, the sprockets, gears or rollers 3 are shown which have the task of guiding cables and chains 4 and transferring the movement. The chains and cables 4 have the function of connecting the parts and transferring the movement 10. In the form of a box, the gear system 5 is represented with freewheel, which ensures the transmission of power to the dynamo and increases the speed. Finally, the drawing shows the coupled dynamo / alternater 6 which provides electrical current 15.

Figure 2 is a representation of an alternative. This is a fixation of the device to a fixed point being a tubular pile or wall 7 in the liquid.

The device has applications in multiple situations. In particular hydraulic engineering works with regular water level differences, such as locks, dams, reservoirs and floodplains, are eligible. This also applies to rainwater basins (possibly integrated) in buildings with a significant roof surface, such as office buildings, apartment buildings, 25 greenhouse horticulture companies and agricultural companies. Furthermore, constructions of a water-based nature are eligible. This includes waste water basins and water treatment plants. The device can also operate on structures in the open sea with tidal differences, such as drilling platforms and wind farms.

The device can be used in several types of forms, both with regard to the form of the energy to be supplied and the integration with existing or newly designed systems. This includes compressors. The installation then supplies 35 compressed air instead of electricity. With a vacuum installation, the device supplies vacuum power instead of electricity. The W.K.N.O. be placed in series. This means that the water basin fills another water basin at a lower level when it is drained. Here is again a W.K.N.O., by which the energy generation is repeated. In some cases, the device complements gray-water circuits. The W.N.K.O. can also be integrated with waste water treatment and separation at 5 buildings.

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Claims (5)

5 liters of series of apparatuses for energy generation, each arranged to extract energy from differences in a water level and the upward force exerted on a floater. 2. Series devices according to claim 1, wherein a water basin fills another water basin at a lower level when it is drained; here is another device for generating energy. Apparatus arranged in series according to claim 1 or 2, each apparatus characterized in that a vertically moving float drives a dynamo, compressor or vacuum installation. Apparatus arranged in series according to claim 1, 2 or 3, wherein each apparatus is arranged as follows; a vertically movable but guided float is located at the surface of the water and is connected outside the water by means of a chain in connection with a gearbox 20 which is fixed; the gearbox has a drive gear on the driver side; the chain is not closed but attached on one side to the floater and fixed on the other side at a point 'ashore'; after the first gearbox, the intervention of several gearboxes is possible; this arrangement is then coupled to a dynamo / alternater, compressor or vacuum installation. 5. Method for generating energy, comprising placing devices for generating energy in series, wherein each device is arranged for extracting energy from differences in a water level in a water basin and the upward force exerted on a float, wherein a water basin - one of which is called device is empty- another drainage water basin at a lower level-where there is again a named device- fills up, whereby the energy generation is repeated. 1 03 7 1 28