ITCO20100038A1 - HEATING MASSES WITH THE USE OF ELECTROMAGNETIC WAVES - Google Patents

Description

â € œHeating masses with the use of electromagnetic wavesâ €,

DESCRIPTION

For the use of heat, different types of systems, appliances, or other, are used, the performance of which is restricted and

conditioned by parameters and / or characteristics of the various fluid and / or solid elements of which they are made.

It is only necessary that the passage of energy through several elements, also different in nature, for example water, oil, iron and

aluminum causes the decrease in performance.

With the use of fuels to produce the necessary energy, in addition to the calories dispersed through the fumes, the fluids used

to distribute it from the thermal unit to the various dispersive masses, since at a relatively low temperature they pass into

change of state with evaporation and boiling, impose a limited it between the masses and the element to be heated.

The appliances that use the spirals made incandescent in the room to be heated, trigger a slow convection since

air is a very bad conductor.

The invention that we will describe favors respect for the environment with the absence of combustion and energy saving

optimizing the efficiency being able to obtain a relevant At between the heating unit and the element that passes through it or in which it

It is immersed or in contact.

Figure 1 represents the schematic cross section of a heating mass in which a generator is inserted.

Figure 2 represents the perspective view of the circular tube shape model with vertical axis with fins.

Figure 3 represents the schematic side view of a structure containing a symbolic heating model.

Figure 4 represents the schematic side view of a pot-bellied structure containing a symbolic model.

Figure 5 is a plan view of a multi-point profile tube-shaped model.

Figure 6 represents the plan view of a model with a circular base provided with heating blades arranged in a radial pattern.

Figure 7 represents the front view of the vertical section of trace I-I shown in Figure 5.

Figure 8 represents the front view of the model made up of heating blades perpendicular to the tube that passes through them.

1 in figure 9 represents the section of a parabola with source in the focus and embedded in a support and closed by a plane.

Figure 10 represents the schematic view of a plant that uses electromagnetic waves from the sun.

Ί I Î † figure 1 1 represents the longitudinal vertical section of the model operating with waves conducted by optical fibers. The invention is characterized by the use of visible and non-visible electromagnetic waves, a form of energy that can be generated and received, concentrated, transferred and transformed with lamps of any kind, sunlight receivers, lenses, optical fibers and other, and in the description of the present invention various models, exemplifying and not limiting, with high efficiency will be described, since it is known that the higher At between two elements in contact, the greater the passage of energy in the unit of time .

Figure 1, representative and not limiting, concerns the cross section of the heating mass (2), in the shape of a tube, heated by the waves received by the generator (1) which diffuses energy through the external (4) and internal (3) surfaces. The model in figure 2 perspective, shown for explanatory, descriptive and non-limiting purposes, is composed of the tube (8). closed at the base, the external surface of which has been increased with radial lamellae (5) for illustrative purposes. In the hollow cylinder (8), inserted and activated a generator (6) of electromagnetic waves that hit the surface (7), lead to high temperatures f the entire mass, triggering, right from the lower edge (8â € ™) and (5â € ™) , an updraft that, with foils at a distance and appropriate and very hot dimensions, heats up more and more during the ascent, thus increasing the speed and volume of the flow obtaining, through a rapid circulation, the heating of the surrounding air in short while.

The flow can be treated with suitable structures with which the heating unit operates and / or by creating the same with shapes and proportions suitable for the purpose given that the simplicity of the use of electromagnetic waves allows the creation of heating units of all types and shapes to deal with problems related to use and / or construction. Figure 3 shows a schematic, representative and non-limiting example, in which the structure (9) conducts and conditions the flow of air generated by the symbolic model (IO) inserted inside it and above which some grids are positioned. directionals (1 1) to orient it if necessary. Figure 4 shows a schematic, representative and non-limiting example, in which the structure (12) conducts and conditions the flow of air generated by the symbolic model (13) inserted inside it. For representative, descriptive and non-limiting purposes, in figure 5 we report, with a plan view, the multi-pointed profile (14) with vertical development of a heating mass that contains the generator (15) inserted in a transparent tube (16) for protect it from the fluid that transits inside, which, undergoing slowdowns and eddies caused by different sections in relation to the distance from the axis, comes out of the mass with a greater flow of calories absorbed by the internal surface.

Figure 6 shows a plan view of a heating mass with a circular base (17) with sheets (18) arranged radially on the outside whose vertical section shown in figure 7 of trace l-l represents a hollow cone (17) containing the source (19) of electromagnetic waves.

The model shown in figure 8 consists of the tube (20), which contains a halogen lamp for explanatory, descriptive and non-limiting purposes, closed at the ends and from which the conductors (21) and (2Î ") of the lamp, joined or forming single body with the plates (22) flat, parallel, perpendicular and concentric with the axis of the tube that crosses them.

The electromagnetic waves can be used in various ways to satisfy the needs as in figure 9 where the surface (23) shaped like a parabola is shown for descriptive and non-limiting purpose embedded in the support (24) closed by the sheet metal (25). exemplary and not limiting, heated by direct and indirect waves coming from the source (26).

Another inexhaustible and useful source for the functioning of the representative and non-limiting models described above is the solar one, using a set of lenses and / or any other means to have the maximum energy during the movement of! sun and to concentrate it to make it reach the surface to be heated as much as possible since the greater the At between two elements that are in contact, the greater the heat exchange in the unit of time;

For illustrative and non-limiting purposes we report in figure 10 a system composed of the casing (27) which contains an assembly of lenses that concentrate the electromagnetic waves portal inside by the lens (28), hemispherical and partially flattened to receive waves from anywhere, to concentrate and channel them into the optical fibers (29) connected to the wall (30) of a heating unit (3 1) with a representative and non-limiting shape of a parallelepiped to heat the one in front (32) from which the heating foils (33). the optical fibers, in figure 10 only one line is represented by way of example, they allow to position the heating mass in positions less exposed to the cold.

In figure 1 1 we report an example for representative, descriptive and non-limiting purposes, which works with the concentration of visible and non-visible electromagnetic waves conducted in the tube (35), transparent and coaxial inside the duct (36) integral with the sheets (37), from the optical fibers (38) and (38â € ™) positioned at the ends.

While the present invention has been described and illustrated according to its embodiments given for illustrative and non-limiting purposes only, it will be evident to those skilled in the art that various modifications to the shapes, details, orientations, inclinations, combinations and assemblies, they can be brought to it without for this reason being removed from its scope and purpose.

Claims (8)

CLAIMS 1. Heating masses with the use of electromagnetic waves characterized by the fact that the internal surface of the plate (32), equipped on the outside with heating protrusions (33), which being part of a parallelepiped container (31) receives from the optical fibers (29 ), positioned on the opposite wall (30), the electromagnetic waves of the sun that have reached the lens (28), hemispherical and partially flattened, and inserted from this into the container (27) which concentrates and channels them, by means of assemblies of lenses or other elements or devices suitable for the purpose, in the optical fibers (29) to reach the container (31) of the heating mass (34). 2. Heating masses with the use of electromagnetic waves, according to claim I. characterized by the fact that the waves are generated, received, concentrated, transferred, propagated and projected with lenses, optical fibers, metals or other for the purpose of a container by means of generators of visible and non-visible electromagnetic waves or solar energy receivers with the possibility of regulating the intensity to hit the inside of walls that are part or all of the container itself. 3. Heating masses with the use of electromagnetic waves, according to the preceding claims, characterized by the fact that the surface (3), hit by the waves produced by the generator (1), raises the temperature of the circulating tube-shaped mass (2 ) which heats the fluids in contact with the external surface (4) and / or the internal surface (3). 4. Heating masses with the use of electromagnetic waves, according to the previous claims, characterized by the fact that the surface (7) hit by the waves emanating from the generator (6) raises the temperature of the circular mass (8) from which they protrude heating plates (5) triggering the upward current increasing the amount of calories absorbed during transit and that with the ducts (9) or (12) in which the heating unit is inserted, the flow is guided, conditioned and directed with devices orientable. 5. Heating masses with the use of electromagnetic waves, according to the preceding claims, characterized by the fact that it has a prevalently circular shape (14) with suitable folds to increase the surface and create forced passages for the passing fluid. 6. Heating masses with the use of electromagnetic waves, according to the preceding claims, characterized by the fact that the hollow cone (17) heated by the source (19) conditions the flow with the non-vertical external wall and the plates (18) placed on it. 7. Heating masses with the use of electromagnetic waves, according to the preceding claims, characterized by the fact that the heated surface is the inside of the tube (36), â € ™ i! core of the heating mass equipped with sheets (37) closed at the ends to limit energy losses and from which the ends of a tubular (35) of suitable and transparent material come out which contains the generator or the electromagnetic waves carried inside it through the optical fibers (38) and (38â € ™) applied to the ends of the duct (35). 8. Heating masses with the use of electromagnetic waves, according to the previous claims, characterized by the fact that the plate (25), supported or fixed to the container (23), where the source (26) is positioned, supported by the support (24), it heats up through its surface facing the inside of the container, receiving direct and indirect electromagnetic waves.