Magnetic plating places the article to be plated, i.e., the plated part, in a magnetic ytterbium. The plated metal is not substantially in the magnetic ytterbium (except for the repelled magnetic ytterbium). The ionic electrolyte solution containing the plated metal is used as the magnetic plating solution. This ionic requirement It is a kind of ion that has a duality, that is, magnetic and positive charge, and then the plated metal and the plated metal are connected with a wire to realize magnetic plating. The electric charge has a powerful effect on both static electric charge and moving electric charge. This is recognized by the academic community. Any magnetic ytterbium is produced by moving charge, and magnetic ytterbium has a powerful effect on the charge of motion. This is also recognized by the academic community. The basic point of the utility model is that the magnetic enthalpy has a relatively positive charge on the iron, cobalt, nickel, chromium, manganese, and copper in the solution. The ions also have a powerful effect, that is to say, the same as for the stationary and moving ferromagnetic ions. The role of force is equivalent. First, talk about the principle of the existing electroplating, electroplating is electrochemical reaction, in the electroplating bath with electrolyte solution, This electrolyte solution contains ions of the plated metal, and after electrification, due to the negative electrode of the power source to be plated, therefore A large amount of positively-charged plated metal ions accumulate on the surface of the plated member, that is, the member to be plated is surrounded by positively-charged ions. In this electron, the atoms are deposited, the metal atoms in the coating lose electrons, and the ions enter the electrolyte. In the liquid, this electron transfer process, which is the oxidation-reduction reaction, utilizes this original burial, in some metals or The process of treating a conductive layer on a non-metallic surface and then plating the surface with a layer of another metal or alloy is called electroplating. Similarly, it is also possible to cast and cast articles. Here, to talk about the specific structure of the utility model, as shown in FIG. 1, a rectangular insulated container is used, ie, The magnetic plating bath is loaded with the product A to be plated, the metal B is coated, and it is loaded with an ion electrolyte solution containing a plating metal In an insulated container, generally this solution containing a plating metal salt solution is a magnetic plating solution. For ease of explanation The problem is that the material used for A is iron, the material for B is nickel, and the ionic solution containing nickel is used as the magnetic plating solution. With a nickel sulfate solution, iron is a magnetic material, which is also magnetic due to the effect of magnetism. Nickel ions have a dual nature. Magnetic, positive charge, attracted by the magnetium, a large number of positively charged nickel ions accumulate on the surface of iron A, That is, positively charged nickel ions surround the iron A (Note: positively charged ions after electrification during electroplating Accumulated on the surface of the part to be plated, that is, positively charged ions surround the part to be plated) and nickel ions around nickel B are After being drawn away, there is not much nickel ion left. The two ends of iron A and nickel B have different amounts of nickel ions. In other words, when the number of positive charges is different, a potential difference between the iron A and the nickel B will be generated, a voltage will be generated, and a voltage will exist. The wire connects the iron A and the nickel B, and the electrons on the nickel B move to the iron A and form a current flow. The surface of the iron A The nickel ions get electrons to become nickel atoms, deposit on the surface of iron A, and nickel atoms of nickel B lose electrons, Become nickel ions into the magnetic plating solution. This process is called magnetic plating. The transfer of electrons is actually chemical oxidation. In the principle of reduction, the positively charged nickel ions on the surface of iron A get electrons (reduced) into nickel atoms, Nickel atoms on nickel B lose electrons (oxidation) to nickel ions. Magneto-plating is the electrochemical reaction in magnetism should. Similarly, it is also possible to cast and cast articles. The magnetic ytterbium of FIG. 1 is attracted to magnetic ions, and the magnetic ytterbium of FIG. 2 is used for magnetic ions. Exclusion, magnetic pole with the same pole, N, N pole or S, S pole. In Figure 2, A is a plated metal, B is to be plated The product is a plated part. For the convenience of explanation, the material used for A is nickel, and the material for B is iron. At the edges of the N and N poles, the electrolyte is treated with a nickel sulfate solution. Under the action of the magnetium, N, N or S and S poles. The positively charged nickel ions in the middle part receive a repulsive force, and the nickel A has a positively charged magnetic ion around it. The positively-charged magnetic ions around the iron B are not substantially subjected to the repulsive force, and the positively-charged magnets are present around the iron B. There are more ions, so there is a potential difference between nickel A and iron B, which will also generate current and realize magnetic plating. It can also be in the N, N or S, S poles at the end of the plated metal, or in the magnets of the superconducting magnet. The product to be plated is one end of the plated piece in the magnetic poles of the N and S poles. The current generated in these processes can also be used for other purposes such as electric lighting, electric motors Electrical power and so on. Can also be used as an additional power source for electrolysis, electroplating, electrorefining, etc., such as electrolytic aluminum, plating Zinc, electric refining of copper and so on. Off-Grid Solar System,Solar Energy System,Solar Solution Off-Grid China Searun Solar Solution Co., Ltd. , https://www.srsolarlights.com