IT201800005534A1 - Magneto Ionizer - Google Patents

Description

SUMMARY

A system is described for treating, oxygenating, gasifying, and ionizing fluids of different natures, such as potable, wastewater, chemical solutions, etc., which can be treated directly during their passage through the duct of any fluid supply.

the system is built and includes the following phases in sequential form:

Fluid flow (a), which enters and runs through the duct, called central tube (1), welded or threaded flange (2), built on the central tubular profile (1), first winding coil (3), or instead of coils, iron magnets, ceramic magnets, or neodymium magnets (B), which both create a magnetic field (C), circular filter (4) to capture particles in the magnetic field passage area, energy source (5), to connect the poles and - in case of winding.

Tubular profiles, (tubes) (6), to convey atmospheric air, or gas (b), inside the central tubular profile (1), Injection cone (9), atmospheric pressure inlet or different types of gas ( said purpose gases), connected to a compressor, a fan, or a pressure cylinder, non-return valve (10), which allows the input of the external pressure and at the same time prohibits the exit of the fluid (a), towards the outside , internal part between the non-return valve and the selected layer (8), of the positioning of the tubes (6), said expansion chamber atmospheric gas or purpose gas (11),

Ionizer (7), with the energy source (e), of the atmospheric gas, or purpose gas, positioned inside the expansion chamber (9). Net support (12), for the positioning of minerals (M), Winding loop (13), or ceramic magnets, neodymium magnets (B), in the outlet part, Secondary filter (14), to capture the particles in the passage area secondary magnetic field. Power source (15), adjustable diffuser (16)

Constructed and connected together in sequence, so that the flow of the fluid (a), at the point of the inlet (2), runs inside the central tube (1), which is under magnetic field (C), by way of of the first and second coiled winding section, or of the neodymium magnets, so that this fluid flow is not obstructed, that all the internal layers (8), determined by the positions of the said tubes, present in all the layers of the internal diameter , can be impregnated by atmospheric gas or by the purpose gas, coming from a compressor, fan, or a pressure cylinder of any kind, in expansion, in low pressure, due to the physical conditions that arise in this principle at the base of the system.

Description of the industrial invention entitled: "IONIZING MAGNET"

TEXT OF THE DESCRIPTION

The present invention relates to a tubular profile (1), which is built at the inlet with a threading or flange system (2), depending on the type of attachment needed for the application, which can be attached to any type of pipeline where it flows. fluid.

The section then immediately after the attachment of mud or threading (2), is composed of a section of winding of coils (3), with its energy source (5), or, instead of the coils, of neodymium magnets or iron magnets (B), which serves to create a magnetic field (C) inside the passage of the fluid in the central tube (1), so that when the passage of the fluid (a) occurs, the magnetic field acts on the path of the fluid and creates the conditions to retain harmful particles from various metals, or impurities through the filter (4), which is located in that section.

In proximity, behind the first spiral winding section, or the neodymium magnets, is the section built with its tubes (6), inclined in the outer circumference, towards the inside so that these tubes can touch all the desired internal layers of the diameter of the tube, inserting them from the center towards the circumference, so that the entire internal diameter of the central tube (1) is gasified.

Inside these tubes (6) there are the injection cones (9), and the non-return valve (10), which are used to let in the external pressure, such as atmospheric pressure, of a compressor, a fan, or a pressure bottle, Fig. 3. (a), (b), (c), but prevent the fluid from escaping to the outside and divide the external pressure before the cone (9), and the low pressure that is immediately created in the section of the expansion chamber (11 ), which is located inside, between the non-return valve (10) and the selected layer (8), in the internal part of the centrile tube (1), where inside this expansion chamber (11) is positioned the ionizer (7), which serves to accelerate the ionization process.

This atmospheric pressure, or other gas that can be used for different purposes, injected by a compressor, fan, or pressure cylinder, passing from a state of atmospheric pressure, or a higher pressure, immediately to a state of low pressure in the section of the expansion chamber (11), increases its volume, breaking its previous volume symmetry, and, consequently, changing its atomic state, directing it into all layers (8) of the continuously passing flow in the central tube ( 1).

These tubes can be of different geometric shapes, both cylindrical, conical, hexagonal, etc., must be related to the diameter and the speed of the fluid in passage and are used to drag the atmospheric pressure, or target gas, or a pressure coming from a compressor or a cylinder, or fan, inside the central tube (1), so that the fluid is enriched with the oxygen ions of the atmosphere or the gas used for the purpose, which remains trapped inside the atomic structure of the fluid in passage, exponentially increasing the ionization and conductivity of the fluid and the quality of the mixing. Precisely in this stretch where the trapping of oxygen ions or gases occurs, the minerals for purpose (M) are also positioned, which further enrich the fluid by rubbing, depending on the minerals that serve for the purposes to be pursued .

The fluid passage pipe in the section where the ionization or gasification occurs is located between the two winding sections (3) and the winding section (13), so that, especially with the inlet of oxygen ions, increases the conductivity of the fluid: in addition, the magnetic field that is created due to the conditions created, further increases the filtration of heavy particles, through the circular filter in the winding section (13), and the further recall of the memory of the atomic structure of the fluid during the passage. These windings can be put in series depending on the length of the center tube

(1)

This system can be, of any length, from a few centimeters up to several meters and used both in series and in parallel, as required, mounted at the outlet of any pumping system, or movement of fluids, such as a traditional pump, or movement systems for purpose, or ventilation systems, which carry out movements or transfer of fluids to be treated.

The construction materials can be of all kinds, plastic, brass, copper, iron, steel, stainless steel of all gradations, etc .; all materials that can create the characteristics and conditions that support the technical-physical characteristics of this invention can be used for this purpose.

The characteristics of the aforementioned magneto ionizer, according to the present invention, concern this specific field and will result from the following detailed description of its components and, subsequently, of the operating principle of the system itself, referring to the attached drawings, (Fig. 1 Magneto Ionizer Spire , and Fig. 2, Neodymium Magneto Ionizer), Fig. 3 Magneto Ionizer Connections, a), b), c). detail Fig. 1, Fig. 2, Fig 3 a, b, c, which shows in schematic form both the construction and its operating principle.

Constructed and connected together in a sequential way as in fig. 1, fig. 2, so that the flow of the fluid (a) in velocity at the point of entry inside the central tube (1) is not obstructed, and forcing it to make a path so that the flow of air, or gas, entering by means of a valve (10) in the expansion chamber (11), you create physical conditions of low pressure inside the sections of the so-called tubes (6) due to the entrainment that generates fluid at speed in the central tube (1): this ionized gas, for these conditions, it is distributed in all the internal layers (8) of the central tube (1).

Each component of the system can be made with the elements and materials most suitable for the purpose. The diagrams illustrated here are purely by way of example: for a full compression of the invention, an innovative object in the field of ionization, gasification, purification of urban waste water; and industrial waters, fluids of any kind.

The numbers and letters listed correspond to those shown on the diagram fig. 1. Fig 2. Fig. 3, a, b, c.

a) Fluid flow

b) Atmospheric flow, or gas

M) Minerals added to supplement the desired values.

C) Magnetic field fig. 2

1) Central tubular profile

2) Flange welded, or threaded on a central tubular profile.

Claims (4)

CLAIMS An innovative "Magneto ionizer" system is described which includes components connected to each other. 1) A central tubular profile (1), made from an initial section composed of a flange, or a thread (2), and, subsequently, by a winding of turns (3), with connection to an energy source (5 ) and circular filter (4). 2) According to claim 1, below, of the different tubular profiles (said tubes) (6), inserted in the circumference of said central tube (1), towards the inside of it, in a symmetrical form, positioned from the center of the tube towards its circumference, so as to touch all the desired layers (8) of the flow (a) inside the central tube (1). 3) According to claims 1 and 2, of the tubular profiles (said tubes) (6), the pressure inlet injection cones (9) and the non-return valve (10), positioned in the part internal to the expansion chamber (11), so that it allows external pressure to enter and prevents the internal flow of fluid (a) from escaping. 4) According to claims 1, 2, 3, of the expansion chamber (11), which are located in all tubular profiles (6), where the ionizers (7) are positioned in the center, with the energy source (e) 5) According to claims 1,2, 3,4, a pressure inlet of a compressor, ventilated and, or a cylinder connected with the tubular profiles (6), which can replace the atmospheric pressure when necessary. 6) According to claims 1,2, 3, 4, 5, in the internal section, in the central tube (1) where the tubular profiles (called tubes) (6) are positioned, the sieve-shaped supports are positioned ( 12), which allows the passage of the flow and contains the different minerals (M), which, in the presence of oxygen ions, and the magnetic field created (C), gives the possibility to enrich the fluids with various minerals. 7) According to claims 1,2, 3, 4, 5, 6, in the last section a second section of coils (13), or neodymium magnets (B), with its battery or energy source (15), in output, an adjustable diffuser (16). All this schematic presentation as in fig 1. fig 2. fig 3, a, b, c. constitutes the principle of this magneto ionization system.