MAGNETIC BODY FIELD OF THE INVENTION 5 The present invention relates to a novel magnetic body, and more particularly to a multi-layer magnetic body having a plurality of laminated layers, including metal layers formed from electrically conductive (i.e. paramagnetic) metal elements, insulating layers, finely 10 mesh-structured filter layers, and light-absorbing material layers. With the magnetic moment effect of the movingelectrons oftheparamagneticelements, themagnet body can provide a magnetic field action. 15 BACKGROUND OF THE INVENTION It is known that magnetic field has been proven existed and widely used to magnetize various kinds of substances to change their molecular structure and physical 20 properties. Forexample, when themagnetic field is used to magnetize water, the magnetic field is in a direction perpendicular to the direction of water flow, so that magnetic lines of the magnetic field repeatedly cut water flowed therethrough to eventually change the molecular 25 structure and physical properties of water, making the 1 water taste better and healthy for drinking. Currently, apermanent magnet or an electromagnet is used to produce the magnetic field, which is limited to two 5 magnetic poles, namely, south (S) pole and north (N) pole, and has fixed magnetic field direction and restricted magnetic field range. Therefore, the permanent magnet or the electromagnet has only limited magnetic performance. When the magnetic field produced by the 10 conventional permanent magnet or electromagnet is used tomagnetize different substances, suchaswater, liquor, petroleum, etc., the magnetized substances have little or no change in their molecular structure and physical properties. 15 SUMMARY OF THE INVENTION Thepresentinventionrelates toamagneticbodyproviding a magnetic field action. 20 The magnetic body includes a plurality of laminated inner layers and an insulating enclosure fully enclosing the laminated inner layers therein. The laminated inner layers include metal layers, insulating layers, filter 25 layers, and light-absorbing material layers laminated 2 in a predetermined sequence. Each of the metal layers in the magnetic body of the present invention is formedof a specificelectricallyconductive 5 (i.e. paramagnetic) metal element, which is vaporized under a high temperature and then coated on an entire surface of an insulating body, so that the formed metal layer carries negative charges. And, more than two different types of metal elements are used to form more 10 than two types of metal layers. Since electric charges in the natural worldhave radially distributed electric field lines and electric fields, and most external substances, such as air, liquid, and 15 solidbodies, carry aplurality of free positive charges, when the negative-charges-carrying metal layers of the magnetic body of the present invention are brought by a magnetic moment effect of moving electrons of the paramagnetic elements to approach to an external 20 substance, the positive charges and the negative charges form an electric field action force, which causes the electric field lines and the electric fields of the external substance to act and thereby form an electromagnetic phenomenon. And, since the external 25 charges do not have any fixed orientation, a magnetic 3 field action in all directions is formed. Therefore, when using the magnetic body of the present invention, the magnetic fields produced by the metal 5 layers of the magnetic body are not restricted to any fixed magnetic field direction and magnetic field range, and accordingly, provide further enhanced magnetizing and activating effects. 10 In an illustrated embodiment of the present invention, three different types of metal elements are used to form three different metal layers, namely, a first or central metal layer formed from indium (In) , a second metal layer formed from silver (Ag) , and a third metal layer formed 15 from aluminum (Al). The insulating enclosure and the insulating layers are formed from general insulating substances, such as polyurethane (PU) rubber, polyvinyl chloride (PVC) resin, 20 orpolyethylene terephthalate (PET), andserve to isolate the negative charges of the metal layers from external positive charges, lest the magnetic body should become useless due to neutralization of the negative charges by external positive charges. However, the insulating 25 enclosure and the insulating layers do not interrupt the 4 magnetic field action of the magnetic body. The filter layers are of a mesh structure woven from an insulating material and having at least 144,000,000 5 meshes per square inch. When the electric field lines pass through the extremely fine meshes of the filter layers, they are transformed into a highly fine "diffusive" form. 10 The light-absorbing layer is a light-absorbing fabric capable of absorbing light energy. The absorbed light energy is stored in the light-absorbing layer to activate movement of charges and electrons and thereby enhance the magnetization from the magnetic moment effect of the 15 moving charges and electrons. This is because light itself is a type of energy, and the magnetic body of the present invention utilizes light energy to activate the energy of electric charges. 20 BRIEF DESCRIPTION OF THE DRAWINGS The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following 25 detailed description of the preferred embodiments and 5 the accompanying drawings, wherein Fig. 1 is a cross-sectional view of a magnetic body according to an embodiment of the present invention; 5 Fig. 2 is a cross-sectional view of a metal layer included in the magnetic body of the present invention; and Fig. 3 schematically shows the mesh structure of filter 10 layers included in the magnetic body of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 15 The present invention will now be described with an embodiment thereof andwith reference to the accompanying drawings. It is noted all the accompanying drawings are enlarged, and an actual overall thickness of the illustrated embodiment of the present invention is only 20 about 2 mm to 3 mm. Please refer to Fig. 1 that is a cross-sectional view of a magnetic body 100 according to an embodiment of the present invention. As shown, the magnetic body 100 includes a plurality of laminated inner layers and an insulating enclosure 200 fully 25 enclosing the laminated inner layers therein. The 6 laminated inner layers of the magnetic body 100 include a first metal layer 1 that is located at a center of the laminated inner layers and is therefore also referred to as a central metal layer 1 herein; two first insulating 5 layers 2 separately located at an upper and a lower side of the central metal layer 1; two identical second metal layers 3 separately located at an outer side of the two first insulating layers 2; two mesh-structured filter layers 4 separately located at an outer side of the two 10 second metal layers 3; two second insulating layers 2 separately located at an outer side of the two filter layers 4; two identical third metal layers 5 separately located at an outer side of the two second insulating layers 2; and two light-absorbing material layers 6 15 separately located at an outer side of the two identical third metal layers 5. All the laminated inner layers are then completely enclosed in the insulating enclosure 200 to formthemagneticbody 100 of thepresent invention. 20 Please refer to Fig. 2. The first, the second, and the third metal layers 1, 3, and 5 of the magnetic body 100 are made of an electrically conductive (i.e. paramagnetic) metal element 300, which is vaporized under high temperature and then coated on an entire surface of an 25 insulating body 310 to form the metal layers 1, 3, and 7 5 that carry negative charges. In the illustrated embodiment, three different types of electrically conductive metal elements, namely, indium 5 (In), silver (Ag), and aluminum (Al) are used to form the central, the second, and the third metal layers 1, 3, and 5, respectively. More specifically, the central metal layer 1 is made of indium (In) , the two second metal layers 3 are made of silver (Ag), and the two third metal 10 layers 5 are made of aluminum (Al) . Taking the advantage of different number of charges and different charge densities of the three different metal elements, the electric fields and magnetic fields thereof are of highly complementary with one another in direction and density 15 to therefore become even denser. Since the metal elements of indium, silver, and aluminum are different in the number of charges, indium having the highest number of charges is used to form the central 20 metal layer 1, and silver and aluminum having the next highest and the lowest number of charges are used to form the secondand the thirdmetallayers3 and5, respectively. And, by providing and laminating two second metal layers 3 and two identical third metal layers 5 separately at 25 an upper and a lower position in the magnetic body 100, 8 the electric fields and the magnetic fields of these metal layers can complement with one another in direction and density. 5 Please refer to Fig. 3. Themesh-structured filter layer 4 included in the magnetic body 100 is a mesh structure woven from an insulating material and having at least 144,000,000 meshes/square inch. Electric field lines passing through these highly fine meshes are transformed 10 into an extremely fine "diffusive" form, which has been experimentally proven to have wider and farther action range, and last longer. The light-absorbing material layer 6 in the magnetic body 15 100 is a fabric capable of absorbing light energy. With the light energy pre-absorbed by and stored in the light-absorbingmaterial layers 6, theenergyof electric charges of the magnetic body 100 canbe further activated. 20 The insulating layers 2 and the insulating enclosure 200 of the magnetic body 100 are formed from general insulating substances, such as polyurethane (PU) rubber, polyvinyl chloride (PVC) resin, or polyethylene terephthalate (PET) , and serve to isolate the negative 25 charges of the metal layers 1, 3, and 5 from external 9 positive charges, lest they should be neutralized by the external positive charges. When the magnetic body 100 is approached to an external 5 substance carryingpositive charges, its magnetic fields and magnetic field lines act in all directions, or form magnetic field action on the earth magnetic poles in all directions. That is, unlike the traditional magnet, when the magnetic body 100 is in use, it is not restricted 10 in magnetic field direction and magnetic field range, and accordingly, provides further enhanced magnetizing and activating effect. In otherwords, the magneticbody 100 produces a magnetic field action in all directions to provide an even better magnetizing effect, compared 15 to the traditional magnetic field lines that have directions and range restricted to the north (N) andsouth (S) poles. When the magnetic body 100 of the present invention is 20 used to magnetize water, the water is changed in its molecular structure and physical properties, and big molecular groups of the tap water are split into small molecular groups to improve the activity of water molecules, making the water taste better and have 25 increased solvency and permeating ability for nutrient 10 substances to more easily pass through the cell wall to complete the metabolism in human body. When the magnetic body 100 of the present invention is 5 used to magnetize liquor, the liquor is changed in its properties and tastes better. When the magnetic body 100 of the present invention is used in different applications of electric energy, it 10 magnetizes the molecules at the surfaces of metal parts, suchas conductingwires, batteryplateelectrodes, etc., so that charges are activated to move, making the metal parts to have lowered resistance and enhanced conductivity to enable largely increased power. 15 When the magnetic body 100 of the present invention is used with fuels, it magnetizes and reduces the size of the fuel molecules to enable more complete combustion of the fuel to achieve the purpose of saving energy and 20 enhancing fuel performance. When the magnetic body 100 of the present invention is usedwith apparel, shoes, etc., orcloselywornonauser' s body, the magnetizing effect provided by its electric 25 charges purifies the user's body magnetic field, 11 activates theuser's tissue cells, andimproves theuser' s blood circulation. It is to be particularly emphasized that the magnetic 5 body 100 has electric field and magnetic field lines that act in all directions without being restricted to any definite direction and range. Therefore, when the magnetic body 100 is in use, it is not restricted to any specific direction or range. In other words, when the 10 magnetic body 100 is in any manner approached to, mounted on, disposed along with anything to be magnetized, such as gas, liquid, a solid body, or a given space, it can always produce magnetic fields action in all directions to achieve the effect of magnetization. The magnetic 15 body 100 is therefore extremely convenient and easy for use, compared to the complexity and difficulty in utilizing the conventional magnet structure. The effects of the above-mentioned examples of using the 20 magnetic body of the present invention with water, fuel, cells of livingorganism, etc. havebeen testedandproven by many public-recognized authorities. It is understood the scope and the spirit of the present 25 invention is to be limited only by the appended claims 12 without being restricted by the above-mentioned embodiment and application examples. In conclusion, the present invention employs the 5 principles of electric charges and magnetic moment phenomenon in the natural world to produce magnetic field action force, such as magnetic force, static electrical force, etc., which lasts longer and has wider range and applications than the traditionally produced magnetic 10 force and static electrical action force. 13