DE9215710U1 - Luminous heat generator and convector - Google Patents

Description

technical description

Light Heat Energy Generator and Convector

The light heat energy generator and convector consists of a fireproof glass container or similar up to + 500 "C and a pressure resistance of up to 20 bar. Depending on the desired performance, the above values can be significantly higher. Alternatively, the container can also be made of another material such as aluminum and others (copper) or equivalent).

The container is designed as a round hat profile with a wall thickness of approx. 6.00 mm up to the flange for larger power units. The container has an opening with a short pipe. The inside of the container is polished, only when aluminum, copper or similar is used.

The air supply is controlled and the pipe cross-section is determined accordingly. The container contains a steel mesh and/or other aluminum mesh, steel, copper with a large surface or similar (wool, wire mesh, etc.) or similarly polished. The light source is placed in this container.

When the light source is switched on, a temperature of approx. + 120 °C is reached on the outside of the container and the energy consumption is 40 watts/h (according to the experiment on oxygen production and conversion).

Depending on the use of the critical voltage source in the vacuum and its size and shape, temperatures of over + 1000 degrees can be reached.

To accelerate the voltage pulses, graphite is added to the container and the container is placed under vacuum.

Thus, depending on the number of light heat energy generators and convectors.

These generate hot water or hot air, etc. Engines, heat energy generators and convectors, which are produced depending on the size, can also be used to drive engines, including power plants. The primary aim is to replace oil and gas for heating purposes more cost-effectively.

The size of the container mentioned here is ISO mm diameter and a length of 250 mm. Higher temperatures can also be reached (+ 500 degrees) when using materials with high conductivity and material conversion.

The light heat energy generator and convector can also be operated externally with a light source, whereby the mass is in the vacuum of the container.

The light heat energy generator and convector can be made to perform even better by using pure carbon.

If the system is not operated in vacuum, different gases can be produced using different masses.

The required energy is obtained from the internal forces of the masses voltage separation (conversion of matter into voltage).

Claims (11)

-&lgr; i RtOIPC-U CH £ 1. Light heat energy generator and convector characterized by the claim that a mass of wool made of aluminum, steel, copper, industrial silver, graphite and or other materials with more or less high conductivity (and depending on the type of material, materials with a very high melting temperature if the temperature is reached in the critical range) placed in a container made of steel, copper, aluminum and or other materials) also with glass eyes, which is located in the evacuated room and with a light source which, depending on the type of light source, is also located in its own evacuated room, is brought into critical vibrations and thus into very high temperatures by switching on the light source, which are brought to the wall of the container and can be used for steam generation and or other purposes via exchange. In the system, the internal energy of the materials used is released and the space is placed under increasing tension. 2. Light heat energy generator and convector according to claim 1, characterized in that in a round container made of glass, steel, copper or aluminum which is under vacuum and with a light source in the vacuum (or .. the light source critical voltage in the vacuum of the container) a usable voltage multiplication is made possible in the edge areas of the container. 3. Light heat energy generator and convector according to claims 1.2, that with a very large area located in an evacuated space and with an intensive critical voltage (light source UV and or others) which alternatively is also located in the evacuated space, usable voltage is generated and increased 4. Light heat energy generator and convector according to claims 1, 2, 3, characterized in that through the use of pure carbon (graphite) the power is increased several times by the pulse speed of the voltage, so that the usable temperature increases by a multiple of the voltage used. 5. Light heat linear energy generator and convector according to claims 1, 2, 3, 4. Characterized in that the system can generate large quantities of different gases depending on the type of mass used and the intensive critical light source (without vacuum). 6. Light heat energy generator and convector according to claims 1, 2, 3, 4, 5, characterized in that the container or the system is provided with a pipe and reeelorganf valve), which enables control of the system or the introduction of new used masses and the system can be kept in a vacuum or under normal atmosphere. 7. Light heat energy generator and convector according to claims 1,2,3,4,5,6, characterized in that the system as an energy generator for hot water production represents a heat exchanger. S. Light heat energy generator and convector according to claims 1.2,3.4.5,6, characterized in that the entire system for steam generation represents a steam generator on a large scale. 9. Light heat energy generator and convector according to claims 1, 2, 3, 4, 5, 6, 7, 8, characterized in that the container is made of copper or industrial silver or VA steel and is used with conductive materials such as aluminum, copper, graphite in the form of a large surface in order to produce combustible gases for car propulsion using fossil fuels. 10. Light heat energy generator and convector according to claims 1.2,3,4,5.6,7.8,9. characterized in that the container is filled with large masses and a laser is used in a mirrored manner, whereby the entire system is under vacuum and very high temperatures are generated on the outer wall and these can be utilized. 11. Light heat energy generator and convector according to claims 1.2,3,4,5.6,7,8.9, 10. characterized in that the system can be used as a gas pressure vessel and thus high pressures can be achieved using aluminum indicators and/or other heat-heated devices, whereby the actual light heat energy generator and convector is only indirectly located in the pressure chamber.