ES1060097U - Conditioner ph and other parameters relative to the ionic behavior in circulating fluids. (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Conditioner of pH and other parameters related to the ionic behavior of circulating fluids in a pipeline, such as water circulating through a pipeline, or any other fluid, of the type based on the application of a magnetic field, constituted by at least a pair of housings adaptable externally to said pipe and provided with fixing means to each other, housings that are hermetically closed, characterized in that within each of said housings there is accommodated at least one permanent magnet of neodymium, of formula ndfeb. (Machine-translation by Google Translate, not legally binding)

Description

PH conditioner and other parameters relative to ionic behavior in circulating fluids.

Object of the invention

The present invention relates to a device of those commonly used for conditioning the pH of a circulating fluid through a conduit, based on the magnetic treatment of said fluids for the purpose of get the pH to automatically approach the value neutral. However, the present invention seeks to define that the use said device is extensive towards other relative parameters to ionic behavior in circulating fluids in a driving.

The invention is especially applicable to water pH conditioning, and other relative parameters to ionic behavior in circulating fluids, such as their degree saturation, the mutation of its crystalline form and the new ionic links that are created for this type of device to be Really useful in the domestic and industrial field.

The object of the invention is therefore provide a new type of magnetic conditioner circulating fluids in a conduit, for which they are used Neodymium magnets, which have a power or intensity high magnetic, that is a high degree of Remanence Br, with which They are extremely effective in such treatment of fluids.

Background of the invention

They are known, and there are different patents that they claim the magnetic treatment of the fluids. This is due to that, as is known, the pH value of water depends on the amount of free ions existing in it, and the effect more important of a magnetic field on water is the polarization of  the ions that compose it, accentuating its partial charges. Consequently a magnetic field favors reactions with ionic type interactions.

So, if a magnetic field is applied to water with a basic initial pH, that is to say greater than 7, said pH will see its value decreased, while if the magnetic field is applied to water with an acidic pH the result will be of opposite sign, that is to say Increase to its value.

However, in addition to the different factors technicians involved in this type of treatments, as per example the different designs and different magnetic polarities which are currently used, to date no system emphasizes the need to apply permanent magnets that provide the necessary power or magnetic intensity, Remanence Br, so that said magnets, which are used in different types of magnetic fluids treatments, obtain or approximate at 100% achievable efficiency.

This is currently not the case since the most widely used magnets are strontium ferrite or barium, which, in general, does not exceed 3,750 Gauss / 0,375 Tesla Remanence Br, ie a magnetic power / intensity insufficient, and that, therefore, are improperly employed in some of the most common pipes, that is between 1 and 24 inches, that is, between 25 and 600 mm section.

One of the biggest drawbacks of the use of these ferrite magnets, is the imposition, by certain manufacturers and traders, from use to all kinds of sections of pipes, which creates discontent among the users of these systems, due to the poor results obtained.

In the case of water, when applying a treatment Magnetic power / insufficient intensity, continue to form inlays in pipes, machinery, etc., of CaCO_ {3}, in form of calcite and aragonite, together, phenomenon that occurs because the calcite content is maintained quantitatively preponderant to the detriment of the content of aragonite, not sufficient crystalline mutation in favor of it latest.

In addition, in the magnetic treatment of water, it has shown that the crystalline mutation in favor of the aragonite, in the assumption that is not quantitatively preponderant by insufficient power / intensity of the magnetic field applied, can not avoid the problem of encrustation in pipes and machinery, although, by itself, the aragonite does not produce historically settling times brief.

Description of the invention

The pH conditioner and other parameters relative to ionic behavior in circulating fluids that The invention proposes, resolves in a fully satisfactory manner the problematic previously exposed, in the different aspects commented, since it is based on the use of magnets Neodymium permanent to create the magnetic field of power e intensity needed to obtain results fully satisfactory in any type of conductions.

The neodymium, of formula NdFeB, presents a magnetic field strength of more than 10,000 Gauss / 1 Tesla, what which makes it a permanent magnet for proper use in pH conditioners and other parameters related to ionic behavior in circulating fluids, such as their degree of saturation, the mutation of its crystalline form and the new ionic links that are created for this type of device to be really useful in the domestic and industrial field, and, in definitive, for any type of device used for the magnetic treatment of fluids in any conduction, showing its advantages by guaranteeing the following results:

- A higher degree of magnetic susceptibility of the fluid, offering greater treatment performance than want to get

- Greater power / field strength magnetic at the point of treatment, towards the inside of the different pipes, thus increasing the flow susceptible to treatment you want to get.

- A greater scope of treatment in the metric distance in pipes, decreasing the number of points to Try over long distances.

As stated above, the pH conditioner and other parameters related to ionic behavior in circulating fluids that the invention proposes, it is a device that can be attached to a pipe conduction of water or any other fluid, so that it generates in the same / or a magnetic field of sufficient intensity to induce the pH towards the basic point of 7, increase its degree of saturation, mutate the crystals of the flowing minerals and create new ionic bonds between them, thus preventing formation of scale and favoring the dissolution of possible  existing inlays in pipes and machinery, among how many other advantages can be obtained by modifying the behavior ionic circulating fluids.

To do this, the conditioner that is recommended It consists of at least two housings, each of the which is intended to house one or more magnets inside permanent neodymium, which occupy them mostly. Being said housings in such a way that they are capable of adapting to the lateral surface of the water or fluid line from which treat, and equipped with fastening and fixing means to the pipe, materialized for example in clamps or any other means suitable.

Description of the drawings

To complement the description that is being performing and in order to help a better understanding of the characteristics of the invention, according to a preferred example of practical realization of it, is accompanied as part member of that description, a set of drawings where with illustrative and non-limiting nature, what has been represented next:

Figure 1.- Shows a perspective view of a pH conditioner and other parameters related to ionic behavior of circulating fluids made of according to the object of the present invention.

Figure 2.- Shows a detail in section of one of the modules or housings that participate in the conditioner of the previous figure, in which the magnets are housed Neodymium

Preferred Embodiment of the Invention

In the figures outlined, a pH conditioner and other behavioral parameters ionic of conventional circulating fluids, in which they are going to use permanent neodymium magnets, of formula NdFeB, to create the magnetic field necessary to perform the treatment, as proposed by the invention.

As can be seen in these figures, the conditioner consists of two housings (1-1 ') equal, in each of which are defined two laterally adjacent, configuration sectors prismatic-rectangular, joined together with one-piece character, determining a dihedral profile and sharply obtuse. These housings (1-1 ') are hermetically sealed closed, and are intended to house inside, each of them, to a pair of permanent neodymium magnets (2), which they remain perfectly adjusted and immobilized, and they create a field magnetic whose intensity is greater than 10,000 Gauss / 1 Tesla

Each of the housings (1-1 '), it is preferably obtained based on a thermoplastic material and insulating, and incorporates a pair of extreme and opposing fins (3), which may be coplanar, as represented in Figure 2, but which can also be located in planes different. The fins (3) are provided with at least one hole (4), preferably of a pair of holes for each of they, which are intended to allow fixing between housings with the collaboration of clamps (5), as can be seen in Figure 1

These clamps (5) can be of the type of that materialize in a toothed strip that crosses a head jagged in correspondence, or of any other conventional type suitable.

In any case, the tension of the clamps (5) establishes an adequate pressure for the correct fixation of the housings (1-1 ') against the outer surface of the pipe (6) through which the fluid whose pH is intended to circulate control and condition, among other parameters related to ionic behavior of circulating fluids.

The inner face (7) or coupling to the pipe (6) of each of the housings (1-1 '), configure an obtuse dihedral whose angle will vary depending on the pipe diameter, so that when the diameter is very small, the angulation of the face (7) can be zero, that is, said face can be perfectly flat, increasing said angulation as the diameter of the pipe (6) increases, until you reach a point where it is more advisable to use of four housings (1) instead of just two, fixing them similarly to each other, hugging the pipe (6).

Claims (2)

1. pH conditioner and other parameters related to the ionic behavior of circulating fluids in a conduit, such as water flowing through a pipe, or any other fluid, of the type based on the application of a magnetic field, constituted at least by a pair of housings adaptable externally to said pipe and provided with fastening means to each other, housings that are hermetically closed, characterized in that at least one permanent magnet is housed within each of said housings. Neodymium, of formula NdFeB. 2. pH conditioner and other parameters related to the ionic behavior of circulating fluids in a conduit, according to claim 1, characterized in that the neodymium magnets used have a magnetic field strength greater than 10,000 Gauss / 1Tesla.