DE29706857U1 - Power generation unit, e.g. consisting of paint or foil generating excess electrons and electricity storage - Google Patents

Description

"Power generation unit, consisting of, among other things, excess electron generating paint or film and power storage"

2. Task/Basic considerations

Solar cells and solar films are known for various applications, such as intelligent, darkening windows, light aircraft powered by solar films, etc. The construction of even the simplest solar cell construction and solar films, as well as the attempt to generate electricity through artificial photosynthesis, is currently more complicated in construction, production and application than the subsequent invention and is therefore
Applications limited.

The principle of excess electrons is also used in the invention presented below. The advanced combination of the components used in the power generation unit now enables the economical use of larger areas, whether car bodies, ship hulls and superstructures, missiles, facades, etc., which are usually painted anyway for protection.

3. State of the art (inventive step)

When researching the specialist literature, it became apparent that from the inventor's point of view, the following utility models or patents can be used for assessment. However, they are either technologically much more complex (e.g. solar film), only reflect individual aspects of the above invention (e.g. solar paints) or are fundamentally different in purpose. Although they are not suitable for direct comparison with the invention below, they should nevertheless be cited for the sake of completeness:

A solar film ("solarium") was registered under European Patent No. O 371 949 A 1. OS 38 24 706 describes a layer structure that is made up of a ceramic color layer and a conductive layer and is applied to a motor vehicle window, while the published patent application DE 36 14 181 A 1 describes a protective coating for solar collectors; \ in both applications, photovoltaic power generation is not the primary subject matter.

DE 37 09 842 A 1 presents a magnetic fluid composition that is used to manufacture noise suppression parts. Patent specification DE 26 49 273 C 2 presents a method for the continuous processing of two-component paints. The problem here is the problem-free mass processing of two-component paints.

OS 38 06 047 A 1 describes an ink or paint that is particularly suitable for use in the manufacture of integrated multilayer circuits, DE 28 49 120 A 1 a coating composition with insulating properties, DE 27 47 446 B 2 varnish and melt resin for electrical insulation.

DE 38 04 421 A 1 describes an electrically conductive coating compound with antistatic properties, similar to DE 38 02 616 A 1.

4. Basics

The basics are based on the well-known technology that when using a material or several materials in combination, excess electrons are generated by individual or multiple chemical or physical influences. This can happen through radiation, light, frequency, magnetism, (e.g. electron) bombardment or the application of force (e.g. friction). This is basically an energy conversion.

5. Definitions

If the term paint is used above and below, it is for the sake of simplicity. The term paint is to be understood as a synonym for varnish, any substrate that can be converted into paint (whether by heat or chemically, physically, vapor deposition: e.g. ceramic), paint, dispersion consisting of color pigments, liquid plastic, primer, etc.

6. Description/Function

Fig. 1.1 shows 4 layers of color: The first layer consists of a color that has charge-neutral properties as long as no energy is supplied. If this happens (Fig. 1.2), the electrons migrate from a predetermined energy level through insulating layer 2 without being able to return in the other direction. The electron migration towards layer 3 results in an increasing energy difference comparable to the energy difference of a capacitor or a voltage source: mainly positive charges are then present in layer 1, negative charges in layer 3, as shown in Fig. 1.2. The insulating layer 2 only has a protective function so that the excess electrons from layer 3 cannot be discharged by ground faults. Since layer 1 has a neutral or positive charge (ground), it does not necessarily have to be insulated.

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Claims (18)

Protection claims of the "power generation unit, including consisting of excess electron generating paint or film and power storage" The following protection claims include the
Invention of the "power generation unit, consisting of, among other things, an electron surplus-generating paint or foil and power storage" "Power generation unit, including consisting of excess electron generating paint or foil and power storage" according to the following claims 1-18, characterized in that 1. this consists of several layers of paint. 2. Invention according to claims 1-18, characterized in that each or individual layers made of lacquer, a substrate^ of colour (whether by heat or chemically, physically, vapor deposition: e.g. ceramic), Painting, Dispersion consisting of colour pigments, Liquid plastic, primer paint, etc. 3. Invention according to claims 1-18, characterized in that the color layer has insulating properties. 4. Invention according to claims 1-18, characterized in that the color layer has conductive properties in only one (layer 2) or both directions. 5. Invention according to claims 1-18, characterized in that the color layer directed towards the energy source or effect has electron-emitting properties at a given or arbitrary energy potential. 6. Invention according to claims 1-18, characterized in that an energy storage device, such as an accumulator, capacitor, etc., is connected, e.g. via cable. 7. Invention according to claims 1-18, characterized in that the charges (positive and negative) are transferred to the energy storage unit via a cable. 8. Invention according to claims 1-18, characterized in that For example, a transistor ensures that the charges in the energy storage device can no longer flow back into layers 1 and 3. 9. Invention according to claims 1-18, characterized in that a voltage converter switches the voltages higher or lower. 10. Invention according to claims 1-18, characterized in that the color layer facing the energy converts radiation, vibrations, magnetism, forces, temperature differences, waves (light etc.) into excess electrons, for example according to the principle of photovoltaics or photosynthesis. 11. Invention according to claims 1-18, characterized in that the thermal expansion coefficients of all layers are as equal as possible. 12. Invention according to claims 1-18, characterized in that With different thermal expansion coefficients, the different expansions of the materials also allow for excess electrons. 13. Invention according to claims 1-18, characterized in that all or individual paint layers have high energy absorption capabilities. 14. Invention according to claims 1-18, characterized in that With different thermal expansion coefficients, the different expansions of the materials also allow for excess electrons. 15. Invention according to claims 1-18, characterized in that the layers of paint are held together by strong adhesive forces. 16. Invention according to claims 1-18, characterized in that the excess electrons from layer 1 are not conducted via layer 2 to layer 3, but are conducted directly to the negative pole. 17. Invention according to claims 1-18, characterized in that in the case of 16, the power generation unit consists of a maximum of 3 layers, namely the upper insulating layer, a middle layer in which excess electrons can be formed and a third insulating layer. 18. Invention according to claims 1-18, characterized in that the excess electrons can flow towards the power storage device, but not back. This can be ensured, for example, by transistors or tubes or other electronic/electrical components.