METHOD TO SUPPLY SUBSTANCE IN A MASS OF MATERIAL
BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a method for delivering a substance in a mass of material, and a device for processing a substance that will be introduced into a mass of material, the substance being introduced in a substantially effective manner. when penetrating through the surface and directly into the mass, instead of allowing the substance to permee minimally or gradually or simply providing a local application of the substance to the surface (s) of the mass of material. DESCRIPTION OF THE PRIOR ART In a large number of industries and applications, from nutritive and medical applications to concrete or metal reinforcement, a beneficial substance must be introduced into a mass of material for its beneficial effects to be achieved. For example, in industries such as concrete, metal or wood reinforcement, there is a need to add chemical reinforcing compounds throughout the interior of an object. In these circumstances, however, adding chemical compounds throughout the interior of a solid structure, eg, a concrete wall, is substantially difficult, due to the dense nature of the object. Therefore, a, often only the outer parts of the object receive the necessary treatment, unless holes are drilled into the interior of the object. Drilling holes, however, is not suitable for many objects, including antiques or old structures, because the holes themselves can reduce the structural integrity of the object, possibly leading to premature decomposition or significantly detracting from the appearance of the object. Moreover, even if holes are drilled in an object, the chemical reinforcement compounds will only penetrate to the areas communicating with the holes. In addition, due to the rapid reaction nature of many chemical reinforcing compounds, the object can not fully absorb them before they harden. As noted above, in addition to the industries in which dense objects must be reinforced, rapid or selective absorption, or both, of substances within material masses would be very beneficial for other uses such as treating wood, deep cleaning of material masses, introduce nutrients into plant structures, or any other application that requires the rapid and targeted absorption of a substance in a mass of material. Other examples involve a more effective absorption of nutrients or medicinal substances, or both, in humans and other animals. In particular, most nutritional or medicinal substances can not be completely absorbed in the necessary parts of the body before being eliminated, applied locally or digested internally. As such, charitable qualities are not used to their maximum capacity. Accordingly, providing a method or device that would allow more substantial and complete penetration into the body would be substantially beneficial. The delivery method of the present invention is precisely designed to overcome many of the disadvantages encountered in current methods of supplying necessary substances within material masses rapidly. SUMMARY OF THE INVENTION The present invention is directed to a method for delivering a substance in a mass of material. In this method, initially, an initial quantity of a transporting liquid is measured, and at least an amount of at least one material that will be supplied is measured. Next, the amount of the carrier liquid and the amount of the material that will be supplied are mixed with each other. The resulting mixture is then subjected to a magnetic influence to polarize the mixture and increase its permeability and effectiveness, affecting the organization of the molecules in the mixture. Finally, the treated mixture is introduced into the mass of material to penetrate it and direct the substantial absorption of the mixture by the mass of material. The present invention is also directed towards a device for the magnetic processing of a substance that will be supplied in a mass of material. The device includes an inlet for liquid, structured to allow the introduction of a liquid compound therethrough, and a liquid outlet. In addition, the device includes a structured magnetic mechanism and arranged to subject the liquid compound to a magnetic influence to polarize the liquid compound and increase the permeability and effectiveness thereof, affecting the organization of the molecules of the mixture. Finally, the device includes structured recycling mechanisms and arranged to repeatedly subject the liquid compound to the magnetic influence until the desired treated condition is achieved. The present invention takes advantage of the unique effects of magnetic induction, which, it is believed, effects a linear molecular organization of a liquid substance to improve its permeability (that is, the ability of the liquid substance to penetrate) into a mass of material with In order to achieve the penetration and rapid and complete absorption of liquid substances within material masses of various densities. The purpose and function of magnetic induction in the present invention are specifically directed to the rearrangement of liquid molecules from an agglomerated state to a more linear and organized state. As a result of this linear molecular organization produced by a magnetic influence, the permeability of the liquid within a mass of material increases considerably, and the penetration of the liquid through the surface and periphery of the mass of material occurs much more easily than if the Molecular organization of the liquid would have remained in an agglomerated state. An additional advantage of the polarization of the liquid effected by magnetic influence instead of electrostatic means is that it will increase the charged polarity of the liquid molecules, thus increasing the spaces between the individual liquid molecules through greater repellency. As a result of this increased charged polarity, the molecules of the liquid are separated to a greater extent, in such a way that they are able to penetrate individually, rather collectively, into a mass of given material, thus significantly improving permeability of the liquid. In addition, because the molecules of the liquid loaded by a magnetic influence are separated more, the reactive chemical agents that are added to the liquids (which act as transport vehicles) reach a more uniform distribution among the molecules of the liquid). After the transporting liquids and the reactive chemical agents thereof are introduced into the mass of material, the dispersion of the chemical agents present in the transporting liquids results in an acceleration of the normal reaction time of the chemically reactive agents within the interior of the mass of material. As such, the method of the present invention, at an initial level, can be used to more effectively "introduce a substance in the form of an additive or a reactive agent into the mass of carrier liquid material before the general mixture. It is intended to penetrate into a larger mass of material, for example, the object to be treated, Moreover, the method of the present invention is intended to deliver a substance in the interior, and not only on the surface, of a mass of The present invention uses a magnetic influence not only as a substitute for an electrostatic mechanism for charging liquid substances to opposite polarities, but as a mechanism to effect a linear organization and separation of liquid molecules to greatly improve the permeability of the liquid. across the surface and inside a dense mass of material, for example, a concrete structure. It is an object of the present invention to provide a method for delivering a substance into a mass of material that includes a greater permeability of the substance across the surface of the mass of material, and a rapid and complete absorption of the substance within the material. mass of material, without the need to create openings in the mass through which the substance must be introduced. A further object of the present invention is to provide a method for delivering a substance into a mass of material that allows targeted delivery of a substance into the mass of material. It is also an object of the present invention to provide a method for delivering a substance into a mass of material that substantially increases the absorption of a material that will be delivered into a carrier liquid, and that will substantially increase the effectiveness of a substance that will be absorbed. BRIEF DESCRIPTION OF THE DRAWINGS For a better understanding of the nature of the present invention, reference should be made to the following detailed description taken in connection with the accompanying drawings in which: Figure 1 is a cross-sectional side view of a first form of embodiment of the device of the present invention. Figure 2 is a cross-sectional side view of a second embodiment of the device of the present invention. Figure 3 is a cross-sectional side view of yet another embodiment of the device of the present invention. Equal numbers refer to equal parts in the various views of the drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The present invention is directed towards a method for delivering substances in a mass of material. Generally, when most substances are supplied to masses of material, the application of the substance must be local, on exposed surfaces and, in general, will provide substantially slow absorption, if any, into the mass of material. Accordingly, the method of the present invention seeks to provide rapid and substantial absorption within the surface of the mass of material. In the preferred embodiment, the method of the present invention involves the initial steps of measuring an amount of a carrier liquid and measuring at least an amount of at least one material that will be supplied. For example, the preferred carrier liquid will generally be water because of its ready availability and its ability to absorb other materials. With respect to the material - which will be supplied, it will vary greatly, depending on a particular application of the method. For example, if the method is used to reinforce a concrete or metal structure, in such a way that it substantially increases the compressive strength of the structure and reinforces the structure, certain patented additives and chemical reinforcement compounds are used that specifically react with the substance of the mass of material. Similarly, for some medicinal purposes, for example, the application of an antibiotic or other healing balm, the drug material is added to the carrier liquid in such a way as to provide more direct penetration to the part of the body that requires treatment. In the preferred embodiment, once the amount of the transport liquid and at least an amount of at least one material to be delivered are measured, both substances are mixed together to provide a complete mixture therebetween. Then, the resulting mixture is subjected to a magnetic influence that polarizes the mixture. Specifically, the magnetic influence will preferably be achieved using the single-pole permanent magnetic method, created by Peter Kulish in 1979, using a magnetizing device such as that presented in U.S. Patent No. 4., 605,498. By subjecting the mixture to this magnetic influence, and preferably by repeating or cycling the mixture through the magnetic influence several times, depending on the particular mixture being used, the permeability and effectiveness of the mixture will be substantially increased, by the organization of the molecules of the mixture. As previously noted, magnetic induction will rearrange the liquid molecules of the mixture from an agglomerated state to a more linear and organized state. As a result of this linear molecular organization, the liquid is much more permeable for penetration into the mass of material, since the organized and aligned molecules can be absorbed more easily and effectively through the open capillaries of the mass of material for assimilation throughout the inner part of the mass of material. In addition to effecting the organization of the general mixture, the magnetic influence will also substantially increase, in general, the solubility of the material additive within the carrier liquid, e.g., water. Generally, carrier liquids will have a higher permeability than the material additive, especially after being magnetically treated, for example, by substantially combining the material additive with the carrier liquid, the user can ensure a more uniform dispersion and complete of the additive of the necessary material within the mass of material. Following this idea, and in an alternative embodiment, before mixing or mixing the material to be added, or both, the carrier liquid can be subjected to magnetic influence one or preferably several times. Through this operation, the carrier liquid may become more receptive to full integration with the material to be added, and the additional magnetic influence of the mixture may be more effective in properly organizing the molecules thereof. When the mixture has been magnetically influenced either once or a required number of additional times, to achieve the desired integration and organization of molecules of the mixture, the mixture is introduced into the mass of material for penetration into it, and absorption direct and substantial of the mixture by the mass of material. Due to the greater substantial permeability, the mixture can be applied by directing it towards the surface without the need for more direct internal introduction. In the case of nutritional or medicinal substances that will be taken internally, the organization of the molecules works to ensure that the body absorbs more nutrients or medicinal substances before digestion of them. In general, since most of these additives are taken internally, a large part of the beneficial substance is digested by the body naturally before it can be absorbed and be useful. As a result, using the method of the present invention greatly increases the amount of nutrient or medical additive used by the body. In additional embodiments of the method, the transporting liquid or transporting liquid mixture and material, or both, which will be added are subjected to a turbulent influence, for example, the passage of the liquid through several mixing veins which agitate the liquid. liquid. As a result, the resulting mixture is more fully integrated and will be delivered more effectively and uniformly to the mass of material. Furthermore, as additional embodiments, the carrier liquid or the carrier liquid mixture and the material, or both, that will be supplied may be subjected to heating influences or sonic influences. In particular, some mixtures, depending on the liquid or material, or both, particular that will be supplied, are mixed more easily and completely, to affect the organization adequate for the penetration, if they are subjected to additional influences. With regard to the heating influence, a heating coil may be introduced at some point, to effectively heat, the carrier liquid or the mixture, or both, especially in circumstances in which the material to be supplied is not substantially soluble. Similarly, the sonic influence may work to effect adequate mixing without physical agitation, or as an additional element to physical agitation. Finally, and still another embodiment of the method of the present invention, the carrier liquid and the material to be supplied are first mixed in a single liquid material. This is especially the case with nutritious materials, such as fruit juices and the like, where the nutrients or materials that will be added are already an integral part of the liquid transporter. In this circumstance, the mixed and integrated material is measured directly beforehand and is subjected to the magnetic influence for the organization of the molecules thereof, in order to increase its permeability and effectiveness before the introduction into the mass of material. The method of the present invention will preferably be carried out using a device for the magnetic processing of a substance that will be supplied to a mass of material, generally indicated as 10. In particular, the device 10 will comprise a flow path 20 through which passes the liquid compound, includes endose an inlet for liquid 22 to facilitate the introduction of liquid compound. As noted above, that liquid compound can be either the carrier liquid alone or a mixture of the carrier liquid and a material that will be added. Next, in one embodiment, mechanisms that promote turbulence 30 are included to agitate the liquid compound and further affect the complete mixture thereof. Arranged in fluid flow communication with the liquid inlet 22 and the mechanisms that promote the preferred turbulence 30 along the flow path 20 are magnetic mechanisms 40. These magnetic mechanisms 40 are structured and arranged to subject the liquid compound to a magnetic influence to polarize the liquid compound and increase its permeability and effectiveness, affecting the organization of the molecules in the mixture. In the preferred embodiment, the magnetic mechanisms 40 will include a central axis 41 through which the liquid compound passes. As such, the central shaft 41 is disposed along the flow path 20 in liquid flow communication with the liquid inlet 22. Additionally, the magnetic mechanisms 40 are structured to provide magnetic fields north and south and concentrate only one of the magnetic fields in the central axis 41, to provide magnetic treatment to the liquid compound located generally along the central axis and within the magnetic field. As previously noted, the magnetic mechanisms will preferably be those disclosed in U.S. Patent No. 4,605,498, issued to Peter Kulish, the disclosure of which is incorporated herein by reference. In the preferred embodiment, more than one magnetic mechanism 40 will be included in line with one another, so that the liquid compound passing through the device of the present invention can be subjected to sufficient magnetic influences to effect in a The organization of the molecules is suitable, following this idea, in the embodiment, recycling mechanisms are included for repeatedly subjecting the liquid compound to magnetic influence, for example, in one embodiment, the recycling mechanisms include placing several of the magnetic mechanisms 40 that appear in Figures 2 and 3 separated from each other along the flow path, alternatively, however, as in Figure 1, a pump 45 or other mechanism may be included. initiation of flow to recycle the liquid compound through again the same or more magnetic mechanisms that are in the path of flow step 20. In that circumstance, several valves 28 may be included to control the flow direction, and a computer control may designate the number of cycles. To facilitate removal of the liquid compound, the device of the present invention further includes a liquid outlet 24 in the flow path. As such, when the liquid compound has been sufficiently treated or cycled, or both, it can be removed from the device for use and introduction into the mass of material. In alternative embodiments of the present invention, more than one mechanism that promotes turbulence 30 may also be included. Preferably, the turbulence promoting mechanisms 30 will include a series of rotating veins 31 disposed within the flow path 20 of the device 10 and which function to agitate the liquid compound and, therefore, promote its complete mixing. Accordingly, in one embodiment, mechanisms can be included that promote turbulence before or after initial influencing of the liquid compound through magnetic mechanisms 40, or before and after. As a further alternative, and because in some instances it may be necessary to further treat the liquid compound to achieve more complete molecule mixing and organization, heating mechanisms 46 or sonic influence mechanisms 48, or both, may be included. For example, in one embodiment, the heating mechanisms may include a heating coil 47 or similar heating mechanisms that will substantially heat the liquid compound before or after, or before and after, the passage of the liquid compound through. the magnetic mechanisms 40. Similarly, the sonic influence mechanisms 48 can be arranged to initiate a sonic influence on the liquid compound before or after the liquid compound is influenced by the magnetic mechanisms, or before and after. Although many varieties of sonic influence mechanisms can be used, in the embodiment the sonic influence mechanisms can be in the form of low frequency waves, for example, through a transducer. In addition, similar sonic influence mechanisms can be used when applying the treated mixture to the mass of material. Finally, due to the above, the carrier liquid can be magnetically influenced at the beginning, and the material to be supplied is added at a later point, the device 10 of the present invention can also include a secondary input 25. Preferably, the input secondary 25 will be arranged downstream of a preliminary magnetic mechanism along the path of flow passage 20, and can be structured to allow the addition of a second material either in liquid, solid or gaseous state, depending on the normal state of the second material. As such, the transporting liquid, often water, which has already been magnetically influenced to increase its own permeability and organization will be mixed with this second material in a substantially more effective and complete way, often with the help of mechanisms that promote turbulence. , before being cycled by means of magnetic mechanisms 40 for the proper organization of the molecules of the mixture as a whole. It can be readily understood that there is a wide range of possible uses of the embodiment of the method of the present invention. For example, this method can be used on metal objects, for example, artifacts that have been saved from the ocean and that are greatly weakened by prolonged exposure to seawater, making them susceptible to decay if exposed to normal environmental conditions outside the ocean. Water. Another use of this method would be to introduce chemical compounds into an object that is exposed, in general, to the elements, in order to seal the object to make it substantially impermeable. further, the method can be used to add nutrients more effectively to a plant or a person. The methods of the present invention, therefore, have numerous applications in cases where a substance must be effectively delivered in a mass of material. Because many modifications, variations and changes in detail can be made to the described embodiment of the invention, it is intended that all matters of the foregoing description be interpreted as illustrative and not in a limiting sense. For example, the liquids that are subjected to magnetic influences for subsequent introduction into the material mass can be the same patented additives, if said additives are in liquid form, thus eliminating the need for separate conveyor liquid. Thus, the scope of the invention should be determined by the appended claims and their legal equivalents.