TW201234760A - Power generation, power saving and/or convergent magnetic synchronous magnetic power generator for charge/discharge - Google Patents

Abstract

The present invention provides a power generation, power saving and/or convergent magnetic synchronous magnetic power generator for charge/discharge, mainly comprising one or more power generation and power saving devices for charge/discharge, or one or more power generation batteries, a convergent magnetic wind pipe units, one or more power generation coil units and one or more magnetic driving units. The power generation coil unit is coaxially connected to the driving unit and provides the electrical power required for the rotation of the magnetic driving unit, such that the power generation coil unit can convert the magnetic energy into the needed electrical energy. Accordingly, green, eco-friendly and carbon-free energy can be provided, and a magnetic field with higher performance can be generated for conversion of electrical power with voltage, current and frequency. In addition, when the power generation coil unit is operated and switched on, the magnetic driving unit can be directly powered by using the internal power generation coil unit only, thereby achieving small size and assembly for use in charge/discharge of power generation and power saving or further as a synchronous power generator.

Description

201234760 VI. Description of the Invention: [Technical Field] The present invention relates to charge and discharge power generation, power saving and/or magnetic synchronous power generation, using one or more charge and discharge ionization energy generation or one or more power generation coil units And one or more magnetic drive units to generate electricity, for a charge and discharge power generation, power saving and / or magnetic magnetic synchronous magnetic power generation.  [Prior Art] The previous synchronous magnetic power generation technology is used alone. It does not utilize the synchronous magnetic power generation method in the polymagnetic air duct. It is another feasible mode for power generation, and there is no charge and discharge power generation device. Traditionally, power and machinery are combined. The transformation of energy and magnetic force is now combined with the power and strengthening of magnetic force as the priority, as well as the power generation and charging technology for the ionization energy, so that the work done by the machine and the heat energy are minimized. The magnetic force is used to convert electric power. Previously, when the magnet or the silicon steel sheet was rotated, the coil was printed on the plurality of substrate films in a disk shape, and the stator was rotated in the magnetic magnetic air tube, and the first fixed length was created. The pipe gathers magnetic air ducts, and the magnetic loss is less than that of the whole piece of magnets, and the magnetic lines of force are based on the principle of no backwashing and non-magnetic loss. Previously, it was only able to generate electricity and weighs heavy. It is not as good as today's power generation and power saving. Light and small, it can be used for charging and discharging power generation, power saving devices and synchronous magnetic generators. [Summary of the Invention] The generators using natural energy, etc., are sufficient to provide various large-scale machines for operation, but the volume required for them is not small. Therefore, if it is required to be applied to electric vehicles and air-conditioners, When there are small and medium-sized plastic household appliances and ventilation lighting equipment, there is indeed a need for improvement and improvement. The present invention provides a charge and discharge power generation, power saving and/or magnetostatic synchronous magnetic generator 'mainly comprising one or more charge and discharge, power saving power generation devices or a magnetic air duct unit, one or More than one power generating coil unit and one 201234760 or more magnetic driving unit, the power generating coil unit is connected to the magnetic driving unit, and provides power required for the driving unit to rotate, so that the generating coil unit converts magnetic energy into required electric energy The magnetic drive unit is further configured to be a magnetically permeable device that creates a high magnetic energy. The present invention provides a power generation and power saving device for charging and discharging, which generates electromagnetic waves to generate high-frequency short-waves to generate currents or to generate low-frequency long-waves, or to generate light beams or to convert light beams or to convert colors. The system flow of the present invention is as follows: A charge and discharge current - ionization energy in the external magnetic field of the device - ionization or ionization equipment electron or ion or proton or molecular flow - cutting magnetic lines to induce current - creating more current. The ionization energy in an external magnetic field of a charge and discharge device—the electrons of a battery or capacitor or the flow of ions or protons or molecules—cuts magnetic lines of force to induce current in the coil—creating more current. A charge and discharge current ~> magnetic ionization energy in the device - battery or capacitor first-class equipment electron or ion or proton or molecular flow -> cutting magnetic field magnetic field induced electromagnetic pulse, induced pulse current or electromagnetic wave induced current or current creation More current, power saving, and power generation. A small current—magnetism, magnetism, magnetic conduction, creating a uniform high magnetic field—substrate film coil rotation—cutting magnetic lines causes the coil to induce current β to create more current. The invention provides a power-saving, power-saving and/or magneto-magnetic synchronous magnetic generator which provides a green and carbon-free energy source and can generate a magnetic field with high performance and converts the voltage. The electric current of the current and the frequency, and when the generator unit is started, the driving unit only needs to be directly powered by the internal storage power unit, and the 201234760 specific small assembly can be used for charging and discharging power generation, power saving function or more. Synchronous generator. The charging and discharging management system of the charging and discharging power generating device described above includes or is charged, or discharged, or detected, or activated, or stabilized, or media or area management in the device, or online management of the device. In the operation of the tube system, the output current of the feedback grid is reduced by the net value of the input current greater than zero', which is extra than the original wheeled current to reach the output current. The above-mentioned charging and discharging power generating device comprises one or more batteries or capacitors, magnets on both sides or peripherals, coils or substrates or substrate film or insulating paper printed with coils and wound around both sides of the battery or capacitor. Or the inside or outside of the surrounding magnet; or the magnet or coil in the battery or capacitor, or the magnet or coil, the battery or capacitor is charging or discharging, and the magnetic flux of the magnet N and s is filled with the battery or capacitor. Or the discharge of electrons or ions or protons or molecular flow between the positive and negative electrodes to produce a cutting magnetic line 'coil to generate an induced current or to meet the output current of the charge and discharge management system. The above-mentioned charging and discharging power generating device comprises one or more batteries, or an ionizing device or an ionizing device, having magnets on both sides or peripherals, coils or substrates or substrate film or insulating paper printed with coils and wound around fixed to The inside or the outside of the battery or the ionization device or the ionization device or the peripheral magnet; or the aforementioned magnet or coil is hidden in the battery or device, or the magnet or coil is indicated, and the battery or ionization device or ionization device is charging Or discharge, magnet N, s pole magnetic line, and battery or ionization equipment or ionization equipment charge or discharge between the positive and negative electrodes _ or ion or proton or molecular flow to produce cutting magnetic lines, the coil generates induced current or • with charge and discharge management The system reaches the output current. The charging and discharging management system of the charging and discharging power generating device described above is for controlling the stability of charging and discharging of the battery device or the capacitor device or the battery device or the ionizing device or the ionizing device, so that the method for controlling the long-term maintenance of the device is extremely long. The frequency conversion or pulse current control makes the nanometerization, or the device is extremely nanostructured, or the chemical reaction of the aforementioned device makes the nanometer. 201234760 The charging and discharging management system of the charging and discharging power generation device described above is for controlling the battery device or the capacitor device or the ionizing device or the ionizing device, or for controlling the charging and discharging of the pulse current, and the device is hidden or hidden in the device. The above magnet and the electric conductor generate a pulse current or current due to an electromagnetic pulse generated in the device during charging or discharging. The charging and discharging management system of the foregoing charging and discharging power generating device controls the battery device or the capacitor or the battery device or the ionization or ionization device, or controls the charging and discharging of the variable frequency pulse current, and the device distributes one or More than one magnet and conductor, and there is an external magnet field outside the device. When charging or discharging, the device generates electromagnetic pulse due to electromagnetic short circuit to generate pulse current, and controls the magnitude of the applied magnetic field to generate pulse current or current. ^ The charge and discharge management system of the above-mentioned charge and discharge power generation device, or the current generated by generating high frequency short wave, the medium or area or management mode of the battery device or capacitor or battery device or ionization device or ionization device may be Or a porous medium, or a redox medium, or a medium of a solar cell material, or a dye-sensitized medium, or a medium that absorbs electromagnetic waves, or a chargeable and discharge medium, or a medium that reflects electromagnetic waves, or shortens the wavelength of electromagnetic waves. a medium, or a medium that absorbs heat and discharge, or a medium that can divide a plurality of small chamber spaces, or an oscillation area that slows the electromagnetic wave velocity, or adjusts a period of charging or discharging, or adjusts a size of a charging or discharging resistor, The size of the old voltage, or the size of the gravitational field. And a charge and discharge management system for a charge and discharge power saving device according to the present invention, which is a line containing or charging, or discharging, or detecting, or activating, or stabilizing, or media or area management, or device Management 'In the charge and discharge management button, the output current of the operating towel feedback grid is reduced by the net value of the input current equal to or less than zero, which is equal to or equal to the original input current to save current. The above-mentioned charging and discharging power saving device comprises one or more batteries, capacitors or capacitors on both sides or peripherals, coils or plates or substrate film or insulating paper printed _ and 赖 眺ϋ 眺ϋ 蓄电池 蓄电池 蓄电池The inside or the outside of the capacitor or the sides or the surrounding magnets; or the magnets or coils inside the battery or capacitor, or the magnets or coils, the battery or capacitor is charging or discharging, the magnetic lines of the magnets N and S, With f battery or capacitor charge or discharge between positive and negative 201234760 electron or ion or proton or molecular flow to produce cutting magnetic lines, the coil generates induced current or with the charge and discharge management system to save current. The above-mentioned charging and discharging power saving device comprises one or more batteries, ionization devices or ionization devices, one or both sides or peripherals having magnets, coils or substrates or substrate films or insulating paper printed with coils of beans. Surrounding the inside or outside of the battery or the ionizing device or the ionizing device or the surrounding magnet; or the aforementioned magnet or coil in the battery or device, or the aforementioned magnet or coil, battery or ionizing device or ionizing device Charging or discharging, the magnetic lines of magnets N and S, and the electron or ion or proton or molecular flow between the positive and negative electrodes in the charge or discharge of the battery or ionization equipment or ionization equipment to generate cutting magnetic lines, the coil generates induced current or cooperates with charge and discharge management. The system reaches the current saver. The charging and discharging management system of the charging and discharging power saving device described above is controlled to stably control the charging or discharging of the battery device or the capacitor or the battery or the ionizing device or the ionizing device or the electric power compensation, so that the device is controlled to be extremely nanometer. The method of long-term maintenance is to make the nanometerization of the inverter or the pulse current control, or the device is extremely nanostructured, or the chemical reaction of the aforementioned device makes the nanometer. The charging and discharging management system of the above-mentioned charging and discharging power saving device controls the battery device or the capacitor device or the battery device or the ionization device or the ionization device, or controls the charging and discharging of the electromagnetic wave current, and the device is hidden in the device. One or more magnets and conductors, when charged or discharged, electromagnetic waves generated by electromagnetic short-circuit in the device generate electromagnetic waves to induce current or current. The charge and discharge management system of the foregoing charging and discharging power saving device controls the charging or discharging of the battery device or the capacitor device or the battery device or the ionization device or the ionization device, or charges and discharges the electromagnetic wave current of the frequency conversion, in the device Distribution of one or more magnets and electrical conductors, and an external magnet field outside the device. When charging or discharging, the electromagnetic wave generated by the electromagnetic short circuit generates electromagnetic wave induced current, and controls the magnitude of the applied magnetic field or the conductivity of the electrical conductor. The electromagnetic wave induces a current or current. The charging and discharging management system of the charging and discharging power saving device described above is for controlling the battery device or the capacitor device or the ionizing device or the ionizing device, or for controlling the wavelength of the electromagnetic wave, and one or more of the devices are hidden in the device. Magnets and conductors, and an external magnet field outside the device. When charging or discharging, the device generates electric current 201234760 due to electromagnetic short circuit, and controls the size of the applied magnetic field or the conductivity of the conductor, and generates or controls electromagnetic waves with different wavelengths. The charge and discharge management system of the charging and discharging power saving device described above, or the light source and the radiation generated by the low frequency long wave, the medium or the area or the management mode of the battery device or the capacitor or the battery device or the ionization device or the ionization device may be Or a porous medium, or a redox medium, or a medium that generates light waves in response to electromagnetic waves, or a medium of a fluorescent material, or a medium that absorbs electromagnetic waves, or a medium that can be charged and discharged, or a medium that reflects electromagnetic waves, or a scattered electromagnetic wave. a medium, or a medium that lengthens the wavelength of electromagnetic waves, or a medium that absorbs heat, or a medium that can be one or more layers of film, or a medium that can divide a plurality of cell spaces, or a contact area that changes the speed of electromagnetic waves. Or adjust the period of charging or discharging, or adjust the size of the charging or discharging resistor, or adjust the magnitude of the voltage, or adjust the size of the gravitational field. The charging and discharging management system of the front-end discharge power-saving device generates light for long-wavelength and low-frequency generation, and the battery device or the capacitor device or the battery device or the ionization device or the ionization device are transparent or partially transparent, and can be converted into light. Light or illuminator or TV screen. The charge and discharge management system of the charge and discharge power-saving device generates light for generating low-frequency long-wavelength, and the thinned battery device or capacitor or battery device or ionization device or ionization device is transparent or partially transparent. Or with a thin film magnet and a film conductor, it can be converted into a light-emitting film lamp or a film illuminant or a film TV screen. The above-mentioned main system includes: at least one generator unit, which mainly comprises: a power generating coil unit; ΖϊΞΐί ί, determined by Thickness multi-polar ring type or polygonal permanent magnet _ ist i! 3 疋 '' from the outside or inside can contain magnetic drive unit and ίϊίίΞϋΐ' contains more than one power-generating coil that is disk-shaped, central film or insulating paper surface printing =丄 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈 线圈The magnetic pole of the straight red hair ring 201234760 has the ability to drive the rotation of the rotating shaft; a charging and discharging power generating device includes one or more batteries or capacitors, magnets on both sides or around, coil or substrate or substrate film or insulating paper printing Set the coil and wrap around the battery or capacitor on both sides or the surrounding magnetic __ or external; or the battery or capacitor shouts the aforementioned magnet or lasing, the thief has the aforementioned magnetic ring 'battery or capacitor is charging Discharge, magnet N, s pole magnetic line 〆 battery or capacitor charge or discharge between the positive and negative electrodes between electrons or ions or protons or molecular flow to produce cutting magnetic lines, the line 圏 generates induced current or with charge and discharge management to achieve output current, can be connected Back to the battery or capacitor or reuse; a battery or a capacitor or a circuit unit, one end of which is connected to the magnetic drive unit for the drive unit to tear the electric power, and the other is connected to the new electric coil unit to recover or send the magnetic drive unit or generate electricity The power of the coil unit. The charging and discharging power generation and/or the magnetic-magnetizing synchronous magnetic generator t is at least one generator unit, and the generator unit mainly comprises: t-member's------------ The structure of the magnet is fixed, and the magnetic drive unit and the element may be included from the outside or the inside, and the power generating coil including more than one disk is included, and the wire is folded from the surface of the substrate film or the insulating paper. 4, the substrate film or the edge of the paper is printed with a coil formed on the surface, and around the center or the cavity contains a metal magnetically permeable object, and the hair is wound around the circular or a number of rings. The printed resistive coils are arranged in a disk shape, and the magnetic lines of force formed by the polymagnetic air duct unit are cut; the magnetic element includes the above-mentioned ones that are energized on the power generating coil to generate magnetism on the miscellaneous axial wires (9) The magnetic pole of the magnetic drive unit has the ability to drive the rotation of the rotating shaft; the capacitor unit and the circuit unit are connected to the magnetic driving unit at one end to lift the required starting power, and the other end is connected to the generating coil unit. Receiving or sending power unit or a magnetic drive unit of the power generating coil. , ^ _ level electric power generation and / silk magnetic observation magnetic generator, the magnetic magnetic wind = unit further into the step - Wei containing the Wei Wei Guan Lai's ventilation ducts surrounded by coil wire film or insulating paper surface The printed circuit board is stacked in a sheet shape 201234760 to be fixed around, and the current is passed through the printed coil and the magnetic line formed by it is perpendicular or cut to generate an induced current again. a power generation and/or a magneto-magnetic synchronous magnetic generator that is charged and discharged as described above. The power generating coil unit further includes one or more power generating coil units, and is fixed on the connecting shaft of the collecting magnetic shaft. The magnetic drive unit is coupled to the power generating unit, and the power generating coil is rotated by electromagnetism, and the power generating coil is disposed inside or outside the collecting magnetic tube. a power generation and/or a magneto-magnetic synchronous magnetic generator which is charged and discharged as described above, wherein the power generating coil unit is provided with a coil-shaped coil on the surface of the substrate film or the insulating paper, and the shaft hole has a shaft hole at the center of the disk, or is disposed around the shaft hole There are conductive printed coil faces. a charging and discharging power generation and a magnetic-magnet synchronous magnetic generator as described above, wherein the power generating coil unit is provided with a conductive printed coil surface of a substrate film or an insulating paper by a radioactive or whirling circle or a circle surrounding the convolution The coil is made to conduct electricity. In the charging and discharging power generation and/or the magneto-magnet synchronous magnetic generator as described above, the power generating coil unit transmits the power generating coil wire by inserting the wire body into the center of the rotating shaft connection, and the operation is rotated and led out. As described above, the charging and discharging power generation and/or the magnetic-magnet synchronous magnetic generator, the power generating coil unit of the power generating coil wire is a large line of a wire having a large cross-sectional area and a surface area in the rotating shaft, and is focused by the magnetic center. When rotating, the magnetic center field and the cross-sectional area of the line and the surface area are cut, and excess current is also generated. As described above, the charging and discharging power generation and/or the magneto-magnet synchronous magnetic generator has a power generating coil rotating torque which is fixed at an angle of every 0 to 90. The adjacent disk-shaped power generating coil is connected to the rotating shaft. on-line. .  As described above, the charging and discharging power generation and/or the magnetic-magnet synchronous magnetic generator, the substrate film of the power generating coil of the power generating coil unit refers to a printed circuit film or a silicone thermal conductive insulating gasket or a thermal conductive film, or an insulating paper refers to a nano ink. Printed conductive materials, both of which can be printed on the circuit, either hard or soft. As described above, the charge and discharge power generation and/or the magneto-magnetic synchronous magnetic generator, the metal-conducting object of the power generating coil unit of the power generating coil is iron-alloy or other nano 201234760 metal composite material. a charge and discharge power generation and/or a magneto-magnetic synchronous magnetic generator as described above, the magnetic drive unit further comprising one or more magnetic drive units fixed to the collector magnetic tube of the generator unit On the axis of rotation, the power generating unit is connected with a vibrating unit; the magnetic driving unit is a magnetic pole composed of a plurality of substrate films or a plurality of electric poles printed on the surface of the insulating paper, and a magnetic pole, a plurality of magnetic poles The N pole and the S pole are attracted to each other and rotate. The charging and discharging power generation and/or the magnetic-magnet synchronous magnetic generator as described above, the magnetic driving unit further has a rotating shaft connected to the generating coil unit to form a fan shape to assist the driving force 'When the double magnetic pole fan driving element is concentrated magnetically The coupling of the rotating shafts on both sides of the air duct unit can load more power generating coils in the collecting magnetic duct unit. In the above-described charging and discharging power generation and/or magnetizing type synchronous magnetic generator, the magnetic force driving unit further generates magnetic lines of force generated by the respective magnetic poles in the same direction and in the same direction as the magnetic lines of force formed by the collecting magnetic tube. As described above, the charge and discharge power generation and/or the magneto-magnetic synchronous magnetic generator, the magnetic drive unit further attracts the N poles and the s poles formed by the magnetic poles, and is a plurality of substrate films or insulating paper surfaces. The electric pole coils of the ring-shaped printing are arranged on the disc, and the number of the electric pole coils which are electrically connected to be spaced apart is arranged into a disk, and then the electric poles are arranged to be alternately arranged and arranged. The number of discs is flashed in succession. As described above, the charging and discharging power generation and/or the magnetic-magnet synchronous magnetic generator further rotates the magnetic shaft of the rotating shaft containing the collecting magnetic tube with the attraction of the magnetic axis due to the magnetic collecting effect, and is placed in the opposite side. The small magnet or the electromagnetic coil is on the side of the collecting magnetic tube, so that the rotating shaft can be rotated and attracted and activated. The power generation and/or the magneto-magnetic synchronous magnetic generator of the charging and discharging as described above is further a power turbo fan including a magnetic collecting duct, and the power fan further includes a power generating coil unit, and the power generating coil unit is connected to the power generating coil unit. The system produces the required power. As described above, the charge and discharge power generation and/or the magnetic-magnet synchronous magnetic generator, the battery or the capacitor or the circuit unit part of the circuit is frequency conversion or pulse, and the current of the 201237360 pool or the capacitor is rectified to zero. Recharge in the battery or capacitor or battery fluid. The above-mentioned substrate film can be replaced by insulating paper. For example, the conductive material is printed on the insulating paper with nano ink, and the paper is separated from the paper interlayer by an insulating material, so that the same is true as described above, and therefore will not be described again. [Embodiment] First, referring to the first to seventh figures, the present invention provides a preferred embodiment of a charge and discharge power generation, power saving and/or magnetostatic synchronous magnetic generator, which generates and discharges power and The magnetic magnetic synchronous magnetic generator mainly includes: a generator unit 1 ′′ each generator unit 10 mainly includes one or more charging and discharging power generating devices 11 , or a collecting magnetic air tube unit 12 , The above-mentioned power generating coil unit 13 and one or more magnetic driving units 14; the charging and discharging power generating device 11 or the charging and discharging management system 91: the charging and discharging power generating device 11 is a magnet 19, a coil 9 or a substrate coil on both sides or around the battery 20 Or the substrate film coil is wound around the inside or the outside of the battery 2 or the peripheral magnet 19; or the battery 20 contains the coil or magnet, and the battery 20 is being charged or discharged to the generator or the power supply or the load terminal or the battery, charging When the ions move from the positive electrode to the negative electrode, the ions migrate from the negative electrode to the positive electrode during discharge, and the magnetic lines 21 of the magnets 19N and S are charged with the battery 20 During the discharge, electrons or ions or protons or molecules flowing between the positive and negative electrodes generate a cutting force line 21, and the coil 9 generates an induced current, which can be returned to the battery 20 or reused; the battery 20 is determined by the quality of the gas liquid and the ion space. The current conduction speed is slow and the current conduction speed is inversely proportional to the conduction space quality; the magnetic force of the magnet 19 is strong enough to penetrate the plastic shell and the liquid quality, and the battery 12 201234760 20 will block the magnetic line 21, and we are extremely smashed in the battery 20 The magnets 25 and the coils 9 are added on both sides, and the magnetic lines 21 are not blocked. When the charging and discharging are strong and fast, the induced current is large, so we concentrate on a battery 20 to charge and discharge, and the induced current is large. In addition, under the special frequency conversion or pulse current 26 rapid charge and discharge, the battery 20 can be countless times, and will not damage the current of the high-yield # can be achieved with the charge and discharge management button 91, or a battery 2 concentrating on charging, a battery 2 〇 Concentrated discharge, there are charging and discharging power generation devices 11, the two are used interchangeably, and they complement each other and benefit each other. In addition, the battery (or the nano-material is made into a paper battery or a battery) or the capacitor 2〇2 or the ionization device or the ionization device can also be used as the above-mentioned charging and discharging power generating device 11, as the above-mentioned similar proof, so Further, the above coil may be made of a nano-conductive material, and the substrate film 31 may be replaced with an insulating paper 32 such as a Nobel insulation paper or an asbestos insulating paper, such as a conductive material printed on the insulating paper 32 with a Neil ink 33, a paper-to-paper interlayer. Separated by insulating materials, the same as the above can be proved, so it is not mentioned. In addition, the charging and discharging power saving device 111 or the charging and discharging management system 91: the charging and discharging power saving device 111 is made to be similarly proven as described above, except that the power generated is used for the power consumption of the device, so that it is no longer used. Narration. Polymagnetic air duct unit 12: a ventilation duct composed of a multi-polar ring type or a polygonal permanent magnet 19 is about 〇 or 15 cm or more, since each element unit is inside a ring-shaped or polygonal permanent magnet 19, There is a magnetic collecting effect, the ring surface is N pole on one side and the other pole is 3 poles. When the power generating coil 131 rotates, the magnetic field line 21 formed by the magnetic flux duct 121 can be cut to produce 13 201234760 electric power 'where the magnetic air duct 121 The outer part of the ventilating duct is perpendicular to the magnetic line 21 formed by the printed coil. When the generating coil ι 31 generates electric current through the venting duct formed by the collecting magnetic duct 121, the printed coil is perpendicular to the magnetic line 21 formed by the printed coil, and the cutting line can be cut again. The magnetic field line 21 formed by the magnetic flux tube 121 generates an induced current. The magnetic air tube 121 is positioned by the mandrel to form an optimal magnetic path structure. Because of the magnetic field at the center point, the magnetic induction strength of the rotating shaft 18 can be made high. The attraction means of the shaft 'receives a small magnet or electromagnetic coil 22 to recombine the axis of rotation 18 on both sides of the magnetic duct 121, and the rotation axis π generates a rotary attraction' to initiate attraction. The power generating coil unit 13 is formed by stacking coils 161 on the surface of the substrate film, or by winding the coils on the surface of the substrate film to form a disk shape 16. The center of the printed coil is surrounded by a hole or a metal hole. The object 27, the power generating substrate film and the coil around the printed ring or the plurality of ring-shaped electric pole coils 16 are arranged on the substrate film as discs, and the magnetic lines 21 formed by the collecting magnet tube unit 12 are generated. The power generating coil 131 is concentrically fixed on the connecting line of the rotating shaft of the collecting magnetic tube 121, and the rotating shaft 18 is fixed by the two-side bearing sleeve 28, and the power generating coil 131 is coupled with the magnetic driving unit 14 to make the power generation more tightly synchronized. The coil 131 is rotated by electromagnetism, and the power generating coil 131 is disposed inside or outside the collecting magnet tube 121. The power generating coil el can be a fan blade composed of the power generating coil 131, which is a power generating coil fan 132, because the weight is improved. Fan efficiency, low friction and low wind resistance, further fan blades can be converted into substrate film by the film film around the printed coil 163, the blade can cut the magnetic lines of force and connect to the rotating batch to reproduce the wire. The current 'rotating' ring-shaped power generating coil 131 can expand the capacity as a fan blade without using a fan blade, and all of the rotating circular power generating coils 131, the more the coils, the more the induced current; the magnetic poles 17 of the power generating coil 131 are energized to form The magnetic lines 21 are in the same direction and are in the same direction as the magnetic lines 21 formed by the collecting magnetic tube 121. Therefore, the magnetic resonance principle is applied, and the coupling between the coils has a strong directivity, and the magnetic lines 21 of the system are coupled in a parallel structure. Strong 'high efficiency, resulting in non-secret _ threat, generated f force will be transmitted between the coils with the fresh resonance' and then through the substrate film into a disk-shaped shaft hole around the conductive hole 201234760 set coil surface 162 or printed copper The silver surface transmission, the further coil matching and the capacitance 2〇2 transmission can recover the transmission power; the above coil can be made of a nano conductive material, and the substrate film 31 can be replaced by an insulating paper 32, such as a nano ink 33 on the insulating paper 32. The conductive material is printed, and the paper and the paper interlayer are separated by an insulating material, and the same is true as described above, and therefore will not be described again. The power generating coil unit 13 has a substrate chip of the power generating coil 131 (high insulation heat dissipation) printed circuit film 161 or silicone thermal conductive insulating gasket or thermal conductive film, which can be printed by a circuit, and can be coated in multiple layers to achieve high thermal conductivity, high insulation and high electrical conductivity. It can be hard or soft. It was originally applied to small currents, but it has increased the conduction quality and speed with special materials. It can also be applied to large currents, improve wire filling, and improve wire resistance loss. It has low wire power. Loss of resistance. The power generating coil unit 13 has a metal magnetic conductive object 27 of a power generating coil 131 of an iron-nickel alloy or other nano metal composite material, and uses a high magnetic conductive material to have a loss. ' _ The power generating coil unit 13 is provided with a coil of the electric poles of the number of ring-shaped printed coils on the surface of the substrate film, and the electric poles 163 and the lower part of the upper portion of the substrate film are printed. The printed electric bungee coil 163 has a current conduction hole containing a metal conductive object 27 edge conduction, a shaft hole in the center of the disk, and a conductive printed coil surface 162 around the shaft hole, and the center hole of the shaft hole can be radioactive Or around the circle of the vortex or the column of the vortex, so that the electric recorder can realize the transmission of the coil through the radioactive or round circle or the circle of the roundabout. The power transmission coil 131 is transmitted through the inner shaft of the shaft 18 Inserted into the wire body, the operation is rotated and exported, and connected to the electric rotary joint 29. The electric rotary joint 29 has a support rod. In addition, if the wire has a large cross-sectional area and a small surface area, the wire is composed of a large line. 'Rotating magnetic center, field and line cross-sectional area, surface area and the above-mentioned conductive printing "face 162 _, will also produce (four) rest, its power generating coil 131 interlocking rotation 'rotation turn 岐 every 〇 - 9 〇 angle Fix the adjacent disc-shaped power generating coil 131 _ shaft 18 connecting line, each interval is fixed at the same angle and distance to enable balanced rotation; the above coil can be made of nano conductive material, and the substrate film 15 201234760 31 can be replaced by insulating paper 32, such as On the insulating paper 32, the conductive material is printed with nano ink. The paper is separated from the paper interlayer by the material of the paper, and is not described here. The magnetic drive unit 14: one or more magnetic drive units 14 are oppositely arranged. The generator unit 1 is disposed at the center or the other end or both sides of the center line of the collecting magnetic tube 121. The magnetic driving unit 14 includes one or more energized power generating coils 131 to generate the magnetic poles 17 and is disposed opposite to the rotating shaft 18 Between the power generating coils 131, the magnetic driving unit u has the ability to drive the heat 18; the magnetic driving unit 14 is configured to be arranged by a plurality of substrate adhesives. A magnetic pole 17 is formed with 16, a plurality of magnetic poles 17 are rotated by the N pole and the s pole, and further, or if necessary, a rotating shaft 18 is connected to the magnetic drive unit 14 and the power generating line on the center line. The ring 131 makes the synchronization more tight, so that the synchronous generator 1〇, the shape of the fan composed of the power generating coil unit 13 is the driving force, and when the double magnetic pole 17 fan drives the rotating shaft of the magnetic tube unit 12 on both sides of the shaft 18 The connection co-construction can load more power generating coils 131 in the polymagnetic air duct unit 12, and when the dual fan driving unit is disposed on both sides of the rotating shaft 18, the two sides of the rotating shaft can be loaded with more generating coils in the collecting magnetic duct unit η. 131, I don’t know how to increase the weight. Of course, the power generation can be more. The magnetic force driving unit 14 further generates the magnetic field lines 21 generated by the magnetic poles 17 in the same square and is the same as the magnetic lines 21 formed by the collecting magnetic tube 121. The direction is substantially parallel to the rotating shaft 18, and the magnetic field lines 21 are overlapped and enhanced, and are not counteracted by the counter-current. When the rotating shaft 18 is rotated, the magnetic field is balanced and the magnetic field is easily formed. The magnetic drive unit 14 further has the N pole and the S pole attracting magnetic poles 17 formed by the magnetic poles 17 not to generate a mechanical rotational force as compared with the conventional magnetic poles, but the magnetic phase is 'Sha', but the front and rear magnetic poles 17 are N poles. S pole phase suction rotates in a ring shape, the head and tail of the magnetic attraction loop are relatively sucked, the front substrate film drives the rear substrate film, the rear base film drives the rear substrate film, and the front and last substrate films are fan-shaped substrate film (power generation) The coil fan) 132 is turned off, and the electric poles of the plurality of substrate film surfaces are printed on the surface of the plurality of substrate film, and the electric poles are arranged on the disk 16 in an interval of 16 201234760. After the number of discs, the power is further jumped and the number of the electric poles 163 of the printed circuit is 163. The number of the discs is arranged into the discs, and the electric power is successively flashed, and the conditions are likely to cause the front and rear N poles and the s poles to be phased and sucked. In this case, the electric coil has a magnetic coating effect, no magnetic eddy current occurs, and heat is easily dissipated, resulting in low spurious loss. One of the above and because the substrate film is very light, it is easy to drive magnetic force, the rotation speed can be lightened and saved faster. If the magnet or the silicon steel sheet is rotated, it is not so light, so a large amount of current can be generated; the above coil can be made of nano conductive material, the substrate The film 31 can be replaced by an insulating paper 32. For example, the conductive material is printed on the insulating paper 32 by the nano ink 33, and the paper and the paper interlayer are separated by an insulating material, so that the same reason can be proved as described above, and therefore will not be described again. After that, the magnetic drive rotational force is balanced to the left and right. If the rotational speed setting of the power generating coil 131 is rotated to the right every other time, it is necessary to have an initial force to start the rotation to the right, and the manual handle can be rotated to the right. Or use the initial rotation or other means to start the initial start, it will be fixed to the right direction of rotation, such as the aforementioned magnetic axis of the attractive device, such as the opposite side of a small magnet or electromagnetic coil 22 on both sides, resulting in rotation Attracting and starting the attraction. The battery or capacitor or circuit unit 15 or the charge and discharge management system 91: the power supply end 23 is connected to the magnetic drive list 14. The starting power required for the magnetic drive unit 14 to operate, the other end of the battery or capacitor or circuit unit 15 is connected to the generator unit 10, and the unused power generated by the generator unit 1 is recovered. The power supply 23 and the circuit of the preferred embodiment of the invention are a variable frequency or pulse current 26, and part of the circuit of the battery or capacitor or circuit unit 15 is a frequency conversion or pulse circuit, and the current of the rechargeable battery 2 is reduced to zero. Recharged in the battery 2〇 or battery liquid, with the charging and discharging power generation device η, the electronic pulse can adjust the output current of the electronic pulse cutting magnetic line to maximize, and the battery 20 and the generator 10 have special circuits and voltage stabilizing lines. And the charge and discharge management system 91, when the generator 10 supplies power to the battery 2, the battery 20 has been overloaded, the generator 10 will stop restarting in time or have full battery charging, battery over discharge 17 201234760 electric protection Function 'charge current self-radiation adjustment, can be used to charge the surplus and charge the battery' and the words of the electric power, efficiency, load, battery charge and discharge The rationalization of the curve, the longevity, the extreme densification, the battery, the rice, the rice, etc. - etc. The similar charge and discharge management system includes or charges, or discharges, or detects, activates, or stabilizes, or devices. When f or area management H is set to online management, in the charge and discharge management button operation, the net value of the input current minus the zero value is greater than the original input current, and the output current is increased. Lithium iron battery is an example. The battery life is up to two years. If it can be nanometerized, the life can be extended. If it is a squamous clock or iron composed of nanometers, it will not produce crystal blocks. The shape will prolong the battery life, we can control the long-term maintenance of the animal's 钣 化 30 30 , , , , , , , , , , 30 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏 骏,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, To promote the long length of the battery Keep 4=made of nano material, when the battery is charged, it can form good conductivity, and the electron can be quickly transferred to the nano pole; the internal resistance of the battery is greatly reduced, and the nano material can fully react and improve the utilization rate to achieve rapid The charging effect, similarly, when the battery is discharged, can also quickly conduct and output the current generated by the nano substance to achieve the function of high-power discharge. In addition, the battery device or capacitor 202 or the ionization device or the ionization device is stable in charge and discharge. Occurs, so the method of controlling the long-term maintenance of the device nanometer 30 is controlled, and the inverter or pulse current 26 is controlled to make the nanometer 30, or the device is extremely nanostructured, or the chemical reaction of the aforementioned device is used. The method of 钣 钣 钣 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 The charging and discharging management system 91 of the charging and discharging power generating device 11 described above controls the battery device or the capacitor 202 or the battery device or the ionizing device or the ionizing device, or controls the charging and discharging of the pulse current, and the device is evenly distributed. The magnet 19 and the electric conductor 203, the electric conductor 203 is not distributed around the coil connection, but is distributed in a distributed manner. When charging or discharging, the magnetic field in the device is cut by the electron flow, and the current is generated by the electric short circuit, and the space is oscillated. The electromagnetic pulse is generated to face the cavity, and the pulse current or current is generated. The charging and discharging management system 91 of the charging and discharging power generating device 11 described above controls the battery device or the capacitor 202 or the battery device or the ionizing device or the ionizing device, or controls the charging and discharging of the variable frequency pulse current. The internal distribution evenly hides the magnetic, the iron 19 and the electric conductor 203 and the external magnet 19 field. The electric conductor 203 is not surrounded by the coil connection. When charging or discharging, the magnetic field in the device is cut by the electron flow, and the current is generated. Electromagnetic short-circuit electromagnetic waves, localized space oscillation, generate electromagnetic pulse and cavity, and generate pulse current or current, and control the magnitude of the applied magnetic field, and generate variable frequency pulse current or current. 'The charge and discharge management system 91 of the charging and discharging power generation device 11 described above, or the current generated by the high frequency short wave 261, the battery device or the capacitor 202 or the medium or area distributed in the battery device or the ionization device or the ionization device or The management method may be a porous medium, a redox medium, or a medium of a solar cell material, or a dye-sensitized medium, or a medium that absorbs electromagnetic waves, or a chargeable and discharge medium, or a medium that reflects electromagnetic waves, or a medium that shortens the wavelength of electromagnetic waves, or a medium that absorbs heat, or a medium that can divide a plurality of small chamber spaces, or an oscillation area that slows the wave speed of electromagnetic waves, or adjusts a period of charging or discharging, or adjusts a resistance of charging or discharging. The size, or the size of the voltage adjustment, Or adjust the size of the gravitational field. The charging and discharging power saving device 111 is similarly proven as described above, except that the power generated by the device is used to save power. The charging and discharging management system 91 of the charging and discharging power saving device 111 is used to control the battery. The device or capacitor 202 or the battery device or the ionization device or the ionization device is extremely sturdy, or is controlled to charge and discharge the electromagnetic wave current. The device distributes one or more magnets 19 and 203, and the device is charged or discharged. Internal electromagnetic short circuit generates electromagnetic waves and generates electromagnetic waves to induce current or current. The charging and discharging management system 91 of the charging and discharging power saving device 111 is controlled to charge or discharge the battery device or the capacitor 202 or the battery device or the ionization device or the ionization device, or to charge and discharge the electromagnetic wave current of the inverter. One or more magnets 19 and a conductor 203 are disposed in the device, and an external magnet field is externally disposed on the device. When charging or discharging, an electromagnetic wave is generated in the device due to electromagnetic short circuit, and an electromagnetic wave current is generated, and the magnitude of the applied magnetic field or the conductive body 203 is controlled. Degree, while the electromagnetic wave induced by the frequency induces current or current. The charging and discharging management system 91 of the charging and discharging power saving device 111 is configured to control the battery device or the capacitor 202 or the battery device or the ionization device or the ionization device, or to control the wavelength of the electromagnetic wave. One or more magnetic 19 201234760 s two m3, and there is an external magnetic lining outside the device. When charging or discharging, electromagnetic waves are generated in the device, and the magnitude of the applied magnetic field or the conductivity of the electric conductor 203 is controlled, and the electromagnetic wave is controlled to have different wavelengths. Ίί ϋ 4111 charge and discharge #理系统91, or for the low frequency long Zhu··~~i wheel, battery device or capacitor 202 or battery device or ionization device f sub, r preparatory f or area or management, It may be a porous or oxidizing medium, or a medium that generates light and radiation when exposed to electromagnetic waves, or a medium that absorbs electromagnetic waves, or a medium that can be charged and discharged, or a reflective electric^ a medium that scatters or scatters electromagnetic waves, or a medium that lengthens the wavelength of electromagnetic waves, or a medium that emits light, or a medium that can be a layer or a thin medium, or a medium of many small chamber spaces, or The contact area change mode in which the electric heat wave speed is increased, or the cycle of charging the electric charge is adjusted, or the size of the charge of the charge or discharge is adjusted, or the magnitude of the voltage is adjusted, or the magnitude of the gravitational field is adjusted.刖The charging and discharging management system 91 of the electric device 111 is for generating a low frequency long wave 262, a battery device or a capacitor 2 〇 2 or a peripheral of the battery device or the ionization device or the ionization device is transparent or Transparent, can be turned into a luminous light or illuminant or TV screen. The charging and discharging management system 91 of the charging and discharging device 1U described above generates a light source for the low frequency long wave 262, and the thinned battery device or the capacitor 2〇2 or the periphery of the battery device or the ionizing device or the + ionizing device is transparent or Partially transparent, or with the thin film magnet 191 and the film conductor 204, can be converted into a light-emitting film lamp or a film illuminant or a film TV screen. The above system inputs 20% power, and the charging and discharging power generating device η will generate at least 60-70% more power, and the collecting magnetic synchronous magnetic generator 1〇 will also generate at least 6〇_7〇% of electricity, and a total of 120 more. -140% of electricity, and also the system input 壹 times power' will total more land to 柒 times the power, the whole process is rarely converted by mechanical energy, in fact, more can be, then electric power, inexhaustible, use Inexhaustible. In order to further understand the structural features, the technical means, and the intended effects of the present invention, the manner of use of the present invention will be described. It is believed that the invention can be more deeply and specifically understood as follows: As shown in the first and second figures, it is an embodiment of the charging and discharging power generation 201234760 device 11 of the present invention, 'f main structural features and the power generation function that can be generated is the charging and discharging power generating device 11' The magnet 19 and the coil 9 are wound around the battery 20, and the generator 10 or the power terminal 23 or the load end is being operated to charge or discharge to the battery 20. When charging, the ions migrate from the positive electrode to the negative electrode, and when the discharge occurs, the ions are transferred from the negative electrode to the positive electrode. 'Magnet 19 N, S pole magnetic field 21 and battery 20 charge or discharge between the positive and negative electrodes electron or ion or proton or molecular flow 窜 1 raw cutting magnetic line 21 'coil 9 generates induced current' can be connected back to the battery 2 再 or reuse, with The charge and discharge system of the system 91 can produce high current. Can also be a: battery 20 concentrate on charging the electricity generated by the coil 9 after the voltage is concentrated and concentrated 'charging a. Battery 2〇, a B: The battery 20 concentrates on discharging and supplies the electric load. Both of them have the charging and discharging power generating device 11. When the charging is saturated, there is a switch to make the A and B alternately switch the charging and discharging position to A. The discharge is supplied by the electric load, and the lightning generated by the coil 9 is charged by the 懕 懕 B B, and is switched and used cyclically. After being charged and discharged by the management system 91, the singer 'A and B are both fast-filled and fast-released. The coil 9 continuously generates the induced current & increases and recharges, and controls the balance between the recharge and the load discharge current, and mutual benefit, to achieve symbiosis and co-prosperity. When the two batteries 20 are arranged together, only three magnets are needed. 25 'The two are arranged in the middle with only one magnet 钣25, and two magnets 钣25 are arranged on both sides of the two sides. The magnetic line 21 can pass through the two batteries 20 according to the N and S poles, and the weight loss is reduced, and more batteries 20 are arranged together. The arrangement of the magnets 钣25 can also be changed into a battery pack by the same type; it can also be an A: capacitor 2 〇 2 instantaneous charging, a B: electric valley 202 instantaneous second discharge, the electricity generated by the coil 9 is regulated and concentrated Supplying electrical load 'both The charging and discharging power generating device 11 has a switching switch so that the switching switch causes the A and B to alternately switch between the charging and discharging positions, and then changes to A after the discharge, and concentrates on the charging, and switches and uses the switching, and the charging and discharging management system 91 When they are fast-filled, the A and B sides are quickly charged, and the coil 9 continuously generates a large increase in the induced current, and the balance of the load and discharge current is matched, and mutual benefit is achieved, achieving symbiosis and common prosperity. When the two electric 4202 are arranged together, 'only three magnets 25' are arranged together in the middle, only one magnet 钣25' is required, and two magnets 25 are arranged on both sides, and the magnetic lines 21 are N, S, and both Throughout the capacitor 202, the weight loss is reduced, and more capacitors are arranged in 2〇2: the arrangement of the magnet rice 25 can also be converted into a capacitor group; or the capacitor 202 can be designed to uniformly distribute a large number of magnets 19 and Conductor 2〇3, one A: Capacitor 202 is charged in a second, and B: Capacitor 202 is instantaneously discharged. The magnetic field line of the magnetic field in the cutting capacitor is cut due to the confined space oscillation, and the electromagnetic pulse is induced to generate the pulse current. Concentrated power supply not only supplies electricity load, but both have charge and discharge. 2012 20126060 Electric device 11, when the charging is instantaneous, there is a switch to make the A and B alternately switch the charge and discharge position and change to A after discharge. Charging, switching between cycles, using the charge and discharge management system 91 to get the best, A and B are fast-discharging while fast charging, pulse current is continuously generated, and the induced current is greatly increased. Can have \regulated traffic The ON and controls the discharge current of the load balancing, and provide benefits to cross to reach a total of raw prosperity. The arrangement can also be changed to a capacitor group or a battery pack with a hidden magnet 19 and a conductor 2^; in addition, the battery (or a nano-material made of a paper battery is also a battery) or a capacitor 202 or an ionization device or an ionization device can also be used. The above-described apparatus for charging and discharging the power generating device 11 or the storage magnet 19 and the conductor 203 is the same as the above-described preferred embodiment of the present invention, and therefore will not be described again. ' ^ The charging and discharging management system 91 of the charging and discharging power generating device 11 described above is for controlling the battery device or the capacitor 202 or the battery device or the ionizing device or the ionizing device, or for controlling the charging and discharging of the pulse current, and distributing the device Uniformly concealing a large number of 'magnets 19 and conductors 203, the conductors 203 are not scattered around the coils but are scattered. During the charging or discharging, the magnetic field lines of the magnetic field in the equipment are cut by electrons, and the alternating electric field will be alternating. The magnetic field, and the alternating magnetic field will provoke an alternating electric field. The current is generated by electromagnetic short-circuit, the electromagnetic wave is confined, the electromagnetic pulse is generated, and the electromagnetic pulse is coupled with the cavity, and the pulse current or current, such as electromagnetic pulse wave. The cylindrical conductor that is incident on the surface ^ hole has more induced currents on the surface and more induced current. ^ The charging and discharging management system 91 of the charging and discharging power generating device 11 described above is for controlling the battery device or the capacitor 202 or the battery device or the ionizing device or the ionizing device, or for controlling the charging and discharging of the variable frequency pulse current, and distributing the device Uniformly concealing a large number of magnets 19 and conductors 203 and externally applying magnets 19 fields, the conductors 203 are not surrounded by coils. When charging or discharging, the magnetic field lines of the magnetic field in the equipment are cut by electrons, and the alternating electric field is generated. The alternating magnetic field, and the alternating magnetic field will provoke an alternating electric field. The current is generated by electromagnetic short-circuiting, and the local space is vibrated. The electromagnetic pulse is coupled with the cavity, and the pulse current or current is generated. Controlling the magnitude of the applied magnetic field, because the magnitude of the applied magnetic field will affect the size of the electromagnetic wave and affect the difference in frequency, and generate a variable pulse current or current. Use electrical conductors and magnets in the equipment. When the electrical conductors in the equipment are compressed tightly, the resistance is small, and the current passing through is large. When the electrical conductors in the equipment are compressed loosely, the resistance is larger, and the current passing through is higher. Small, the magnetic strength of the magnet will affect the magnitude of the transmitted current, and the light will also vary with the strength of the electric and magnet. 22 201234760 Different amplitude and frequency, the current generated in the device will follow the light. The amplitude of the vibration of the spoke varies with the level of the frequency. The charging and discharging management system 91 of the charging/discharging power generating device 11 described above, or the current generated by the high frequency short wave 261, the medium or area or the management of the battery device or the capacitor 202 or the battery device or the ionizing device or the ionizing device The medium may be a porous medium, or a redox medium, or a medium of a solar cell material, or a dye-sensitized medium, or a medium that absorbs electromagnetic waves, or a chargeable and discharge medium, or a medium that reflects electromagnetic waves, or a medium in which the wavelength of the electromagnetic wave is shortened, or a medium that absorbs heat and discharge, or a medium that can divide a plurality of cell spaces, or an oscillation area in which the wave speed of the electromagnetic wave is slowed down, or a period in which charging or discharging is adjusted, or a resistance of charging or discharging is adjusted. Size, or adjust the size of the voltage, or adjust the size of the gravitational field. Electromagnetic waves in solar cell materials or dye-sensitized media: a series of electromagnetic waves—a series of solar cell materials or dye-sensitized media—a series of electronically excited states—a series of electron flow fluctuations. Electromagnetic short circuit electromagnetic wave combined with charge and discharge power generation system - high frequency pulse short wave ~ electron flow on the medium - charge and discharge electron flow on the medium - medium charge The electron flow cuts the internal magnetic field to generate a proliferating current. Porous redox medium: For example, the energy storage electrode material uses a porous nanostructure (10~50nm) electrochemically active material as a high energy storage electrode material, which greatly enhances the power of denseness and reaches a few minutes of high-power rapid charge and discharge. Eye. of. .  · · · . . .  A medium that shortens the wavelength of electromagnetic waves: the speed of light is equal to the product of wavelength and frequency, and the speed of light is inversely proportional to the density of the medium such as air. For example, steel; the speed of light of 5 大约 is about two-fifths of the vacuum' The wavelength is Wei, so the wavelength can be adjusted.弼 β In addition, when the electromagnetic lining rate is low, it can only be transmitted by a tangible electric conductor. Originally, the electric oscillating towel in the _, the mutual change between the magnetoelectricity is relatively slow, and almost all of it returns to the original circuit without the Wei amount riding m Wei _ high time ^ can be transmitted in free space, no high voltage is required, It can be restrained by the low-voltage electric dust when the tangible guide 23 201234760 electric body transmits 'the high-frequency short-wave 261 can be adjusted and the voltage can be adjusted. The reason for the transmission in free space is that in the high-frequency electrical oscillation, the magnetoelectric f becomes very fast, and the energy cannot be returned to the original oscillating circuit. Therefore, the electric energy and the magnetic energy propagate to the space in the form of electromagnetic waves with the periodic changes of the electric field and the magnetic field. Going out, electricity and magnets can transfer energy without the need for a medium. This is the kind of radiation. For example, the distance between the sun and the earth is very far away, but when we are outdoors, we still can't feel the light and heat of f and f sunlight. This is like "electromagnetic radiation is transmitted by radiation phenomenon. The electromagnetic wave is a transverse wave. The magnetic field, the electric field and the direction of travel of the electromagnetic wave are perpendicular to each other. The amplitude is periodically alternating along the vertical direction of the propagation direction. The ratio of the intensity to the variance of the translation is the value of the wave. The energy power is proportional to the square of the amplitude. The electromagnetic wave is used to change the wire. Change mode: for example, the uniform magnetic field is perpendicular to the plane of the guide rail, C is the capacitor, and the ab poles are frictionless at the speed and v to the right at the speed. The two plates of the capacitor are staggered so that the positive area is reduced, then the _ pole is Wei, indicating that the force balance level is not force, that is, there is no current. The electromotive force generated by the motion is used to maintain the capacitance. When the stagger is turned off, the capacitance is reduced, (: two The plate voltage is greater than the electromotive force generated by the movement between the two poles of the ab, and the current flows from a to b, and the force is applied to accelerate the ab between the two poles, thereby generating a large rebalance of the electromotive force, similarly the above two In the opposite direction, the wave speed becomes slower. In addition, the area of the plate of the light jurisdiction is changed and the bribe is changed. _ Weaving _ change the way. In addition, the charging or putting surface cycle, or the electric resistance of the charging example: - A : The charging period of the left half of the capacitor 202 is τ = (the internal resistance R + Rl) The power supply C 2 'discharge period is τ = (inclusive resistance R) capacitance c 2 ; - B · · the charging period of the right half of the capacitor 202 Is τ - (with resistor R2 + R3) capacitor C3, the discharge period is T = (inside 24 201234760 with resistor R3) capacitor C 3, using R, R3 both capacitors have variable resistors to adjust the output frequency, ruler or When the ruler 3 is lowered, the cycle on the left or the right is lowered, and the cycle is lowered, so that the frequency of the frequency rise on the circuit becomes higher, so that the frequency of the electromagnetic wave (light) generated by the capacitors C 2 and C 3 becomes higher and the energy is increased. The size will affect the cycle of charge and discharge. The smaller the period, the higher the frequency of electromagnetic waves (light light) generated by capacitors C2 and C3. This principle can easily change the high and low frequencies of the light, capacitance c 2, c 3 The higher the frequency of generating electromagnetic waves (optical radiation), the higher the energy of the optical radiation, so the charge can be adjusted. Cycle, or adjust the size of the charge or discharge resistor. — ' Adjust the size of the gravitational field: If the speed of light is mainly determined by the elastic field of the medium field, when the light wave enters the elastic field from the weak field with small elasticity The speed of light is faster; the frequency of the light wave is determined by the amount of light energy received by the electric field. The light energy received by the light field from a weak field into a single electric field per unit volume is reduced, so the frequency of the light wave becomes smaller. According to the formula: wave velocity (C) = wavelength (λ) χ wave frequency (υ), we can know that the wavelength of the light wave from the weak field into the strong field light wave becomes longer, and the sun light is far from the strong field space near the sun. The frequency of the weak field space propagation is gradually getting faster, so the size of the gravitational field can be adjusted. Note: The gravitational field includes an attractive field other than a magnetic or magnetic field. The above examples can achieve high frequency short wave 261 and generate current. In addition, the power-saving device 111 for charging and discharging is similarly proven as described above, except that the power generated by the device is used to save power. The charging and discharging management system 91 of the charging and discharging power-saving device 111 is Controlling the battery device or capacitor 202 or the battery device or the ionization device or the ionization device, or controlling the charging and discharging of the electromagnetic wave current. The device distributes one or more magnets 19 and 203, and charges or discharges. When the electromagnetic wave is generated in the device, the electromagnetic wave induces a current or current, and the electromagnetic ring coil generates an inductor current. Therefore, the magnetic field line is cut, the electromagnetic wave is increased, and the inductor current is also increased. The charging and discharging management system 91 of the charging and discharging power saving device 111 is charged and discharged for controlling the battery 25 201234760 device or the capacitor 202 or the battery device or the ionization device or the ionization device, or for generating the electromagnetic wave current of the inverter. Controlling, one or more magnets 19 and conductors 203 are concealed in the device, and an external magnet field is externally attached to the device. When charging or discharging, electromagnetic waves are generated in the device due to electromagnetic short circuit, and electromagnetic wave current is generated, and the magnitude of the applied magnetic field or the electric conductor is controlled. 203 Conductivity, the electromagnetic wave induced current or current that is converted by the external magnetic field, which affects the size of the electromagnetic wave and affects the frequency. The charging and discharging management system 91 of the charging and discharging power saving device 111 described above controls the battery device or the capacitor 202 or the battery device or the ionization device or the ionization device, or controls the wavelength of the electromagnetic wave, and the device distributes a hidden one. Or more than one magnet 19 and conductor 203, and there is an external magnet field outside the device. When charging or discharging, electromagnetic waves are generated in the device due to electromagnetic short circuit, and the magnitude of the applied magnetic field or the conductivity of the electrical conductor 2〇3 is controlled, which may be affected by the magnitude of the applied magnetic field. The electromagnetic wave generates a size that affects the difference in frequency' while generating or controlling the electromagnetic wave with different wavelengths, or for producing different low-frequency long-waves 262 and generating light. When the conductor and the magnet are used in the device, when the conductor in the device is compressed tightly, the resistance is small, and the current passing through is large; when the conductor in the device is compressed loosely, the resistance is larger, and the current passed is higher. Small, the magnetic strength of the magnet will affect the magnitude of the current flowing and change. 'The light will also vary with the magnitude of the amplitude and frequency of the electricity and the magnetic force of the magnet. The current generated in the device will follow the light. The amplitude of the vibration changes with the frequency, and the electromagnetic wave of this current will be transmitted to different wavelengths by electromagnetic transmission, and the low-frequency long-wave 262 light radiation is appropriately released. For example, the low-frequency long-wave 262 is easy to change the wavelength due to the resistance, or change the wavelength. Long, this resistance includes changes in the magnetoelectric effect, including an increase in voltage and a low frequency drift. Thus, the aforementioned release of the low frequency long wave 262 is a manifestation of a light or illuminant or television screen. One of the applications of the charge and discharge management system 91 of the charge and discharge power saving device 111 is as follows: 26 201234760 Electrical and magnetic effects - generating electromagnetic waves - > medium or area or management mode - changing electromagnetic wave wavelength - generating low frequency long wave 262 - > - a light-emitting lamp or a light-emitting body or a television or thin film lamp or a film-and-light-emitting device or a film-and-charge television power-saving device 111 for charging and discharging power-saving device 111, or generating a light-spreading device for generating low-frequency long-wavelength 262, storing electricity, The medium or area or management method of the pool device or capacitor 2〇2 or the battery device or the ionization device or the ionization device may be a porous medium, a redox medium, or a medium that generates light and radiation when exposed to electromagnetic waves, Or a medium of a fluorescent material, or a medium that absorbs electromagnetic waves, or a medium that can be charged and discharged, or a medium that reflects electromagnetic waves, or a medium that scatters electromagnetic waves, or a medium that makes electromagnetic wavelengths longer, or a medium that absorbs heat, or a medium that is one or more layers of a film, or a medium that can divide a plurality of cell spaces, or a contact area that changes the electromagnetic wave velocity, or The cycle of charging or discharging, or adjusting the size of the charging or discharging resistor, or adjusting the magnitude of the voltage, or adjusting the magnitude of the gravitational field. A medium that emits light when exposed to electromagnetic waves: for example, converted to a visible wavelength. . 翌 翌 竺 竺 缉 缉 缉 缉 缉 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 通过 ft ft ft ft ft ft ft 通过 ft 通过 通过 通过 ft 通过 通过 通过 ft ft ft ft ft ft 通过 ft ft 通过 ft The change of the edge _, turn to Le Jian: 262 potential production state to send a letter." . . . . . . . . . . . . -One . . . . . .  - One. .  a) Scattering electromagnetic red I: If the Nylon cypress resonance scattering produces different highly saturated, vivid hue. A medium that can divide many chamber spaces: the energy reflection that occurs when the electric Wei arrives at the surface of the mask is mainly due to the division of the medium (air) and the boundary of the area into many units. In addition, the cycle of charging or discharging, or the charging or discharging resistor: A: Capacitor 2 (32 left half charging cycle is Τ = (included resistance R + R1) Capacitor C 2 'discharge job is τ = ( Internal thief) Capacitor c 2 ; One B: The charging cycle of the right half of capacitor 202 is τ = (with resistance R2+R3) capacitor C3, the discharge period is τ = (with resistor R3) capacitor C 3, use Both R and R3 capacitors are variable to adjust the output _ rate, R^r 3 rises, so that the cycle of 27 201234760 left or right rises, the cycle rises will make the frequency of the frequency drop on the circuit become lower, so that the capacitors C2 and C3 generate electromagnetic waves. (Light ray) frequency becomes lower, energy decreases. It is understood that as long as the size of the resistor is adjusted, it will affect the cycle of charge and discharge. The larger the period, the lower the frequency of electromagnetic waves (light ray) generated by capacitors C2 and C3. The principle can easily change the high and low frequency of the light radiation. The lower the frequency of the electromagnetic wave (light ray) generated by the capacitor c 2 and c 3 , the lower the energy of the light ray, so the period of charging or discharging can be adjusted, or the resistance of the charging or discharging can be adjusted. The size of the charge and discharge management system of the charging and discharging power saving device 111 91, for the low frequency long wave 262 to generate light, the battery device or capacitor 2 〇 2 or the battery device or ionization device or ionization device periphery is transparent or partially transparent, can be converted into a luminous lamp or illuminant or TV The charging and discharging management system 91 of the charging and discharging power saving device 111 described above generates a light beam for the low frequency long wave 262, and the peripheral of the thinned battery device or capacitor 202 or the battery device or the ionizing device or the ionizing device is transparent. Or partially transparent, or combined with the thin film magnet 191 and the thin film conductor 204, can be converted into a light-emitting thin film lamp or a thin film illuminator or a thin film television screen. The above examples can achieve low frequency long wave 262 and generate light. As shown in the third to seventh embodiments, the battery or the capacitor or circuit unit 15 is connected to the magnetic drive unit η, so that the magnetic drive unit 14 is arranged by a plurality of electric discharge poles of a plurality of substrate film surfaces. The disk 16 constitutes a magnetic pole 17, and the plurality of magnetic poles 17 are rotated by the N pole and the S pole, and are rotated by the electric poles 163 which are arranged at intervals to be printed, and then jumped. The electric power dipole coils 163 are alternately arranged to be arranged in a number of discs, and are sequentially energized to provide a corresponding rotation of the power generating coils 131, and simultaneously rotate the adjacent power generating coils 131 fixed in the central axial direction thereof. Rotating, rotating in front and rear, the rotating shaft 18 is rotated and fixed on both sides of the power generating coil 131 and the rotating power generating coil fan 132 rotates. When the magnetic driving unit 14 rotates, the magnetic flux is cut in the collecting magnetic tube unit 12 The power generating coils 131 are such that the power generating coils printed on the substrate film or the substrate film are printed in a plurality of ring-shaped electric pole coils (the plurality of substrate film surfaces are printed in a ring-shaped electric pole coil row) The disk 16 generates an induced current, and the circular circle 28 201234760 is provided with a conductive printed coil surface 162 around the hole, and the center of the shaft hole can be radioactive to the surrounding coil, so that the electrician can pass the radioactive coil and further wire Inside the connection of the transmission shaft 18, the towel core is inserted into the wire body, and the operation is rotated and led out, and is connected to the electric rotary joint 29, and the magnetic lines 21 formed by energizing the magnetic poles π of the power generating coil 131 are formed. In the same direction, and the magnetic flux lines formed by the magnetic flux duct i2i are in the same direction, so the magnetic resonance principle is applied, and the faces between the coils have a strong directivity. The magnetic lines of the system are 2U parallel structures _ strong, efficiency High, producing non-radiative _ resonance, the generated power will be transmitted between the coils of the ugly resonance, and then transmitted through the substrate film into the disk-shaped 16 (substrate film) axis hole with the conductive printed coil surface 丨 62 transmission, further The coil is combined with the capacitor arc to transfer the transmitted power. . Another type of magnetic air duct 121 female syllabary ^ Dao Xiangbao County film film surface printed with Han-Yu coils stacked into a thin sheet ι61 to be fixed around, the current through the printed coil and its magnetic field line 21 perpendicular or cut and reproduce Inductive current, so that the power generation fresh 7G 10 can be connected to the power required by the Wei Xianyuan 1Q. When there is too much power supplied, the excess power can be stored in the battery or capacitor or circuit. Unit 15. Referring to FIG. 5, the charging and discharging power generation and the magnetic-magnet synchronous magnetic generator have a generator unit 10, and the magnetic drive unit 14 connected to the generator unit 10 rotates the shaft 18 by The front and rear power generating coil fans 132 are disposed on both sides of the collecting magnetic coils 121, and the power generating coils 131 are coaxially disposed in the central magnetic field of the collecting magnetic coils 121, and the power generating coils 131 drive the front and rear generating coils. The fan 132 rotates, and the center of the collecting magnetic tube 121 is positioned by the mandrel to form an optimal magnetic path structure. The magnetic induction intensity of the rotating shaft 18 can be made high by the magnetic attraction at the center point, and the attraction device of the magnetic shaft can be rotated. The electromagnetic coil 22' is provided on the side of the collecting magnetic tube 121 to generate rotational attraction and start suction, and the charging and discharging power generation and/or the magnetic-magnetizing synchronous magnetic generator 10 is operated to achieve the purpose of starting power generation; The conductive material of the meter, the substrate film 31 can be replaced by the insulating paper 32, such as printing the conductive material on the insulating paper 32 with the nano ink 33, and the paper and the paper interlayer are separated by the insulating material 29 201234760 from the same as the above. It will not be repeated. Please refer to the following description, which is another embodiment of the present invention. The main structure and the resulting function are the same as the embodiment of the present invention, and therefore, the driving force is ventilated. A power full-wheel fan 24 having a collecting magnetic duct 121, which includes a generating coil unit 13 and connecting the generator 10 to generate required electric power. Through the above guidelines, the advantages and benefits of the rewards can be summarized as follows: The charging and discharging power generation and / or magnetic resonance synchronous magnetic generator of the present invention can generate a magnetic field with higher performance and convert the voltage Electricity, current and frequency, so 'stable sine wave frequency can be output for subsequent conversion to the required power. 2. The charging and discharging power generation and/or the magnetic-magnetizing synchronous magnetic generator of the present invention is required to be supplied by one or a battery, and will generate electricity by itself, without using other external energy sources. Therefore, regardless of the group device or setting, and having a light weight and small size, the assembly is easy. 3. The power-saving device for charging and discharging according to the present invention occurs stably in (4), and achieves the purpose of power saving. In summary, the present invention has its excellent novelty and progressive practicability in its similar products. At the same time, it has investigated domestic and foreign technical data on such structures, and the same neon power generation has not been found in the literature. The power-saving and/or magneto-transfer power generation structure exists first, so that the present invention already has the invention patent requirements, and the application is made according to law. However, the above-mentioned ones are merely preferred embodiments of the present invention, and the equivalents and structural changes of the present invention and the scope of the claims are intended to be included in the scope of the present invention. [Simple diagram of the diagram] The power generation, power-saving and/or magnetic-magnet synchronous magnetic generator of the machine is charged and discharged, and the power generation, power-saving and/or magnetic-magnet synchronous magnetic generator Decomposition of charge and discharge power generation or power saving device - embodiment " 30 201234760

The seventh figure is the magnetic field driving unit of the charging and discharging power generation and/or the magnetic-magnetizing synchronous magnetic generator of the present invention, and the magnetic poles of the magnetic flux driving unit of the magnetic-magnetizing unit Schematic diagram of the same direction " [Main component symbol description] Description of the figure: 9: Coil 91: Charge and discharge management system 10: Generator (or magnetic resonance synchronous magnetic generator) 11: Power generation and discharge device Π1: Charging and discharging device 12: collecting magnetic duct unit 121: collecting magnetic duct 13: generating coil unit 131: generating coil 132: generating coil fan 14: magnetic driving unit 15: battery or capacitor or circuit unit 16: plural The electric poles of the substrate film are printed on the surface of the substrate, and the electric poles are arranged in a circular disk 161. The surface of the substrate film is printed with coils stacked in a sheet shape 162: a conductive printed coil surface 163 is disposed around the shaft hole of the substrate film: the substrate The film is wound around the printed coil (printed electric dipole coil) 17 : Magnetic pole 18 : Rotary shaft 19 : Magnet 191 : Thin film magnet 20 : Battery 202 : Capacitor 203 : Conductor 204 : Thin film conductor 21 : Magnetic field line 22 : Magnetic wire 23: Power terminal 24: Power fan 262: Low frequency long wave 27: Metal magnetically permeable object 29: Electrical rotary joint 30: Extremely twisted nanometer 31: Substrate film 32: Insulating paper 28: Bearing sleeve 25: Magnet 钣 26: Frequency conversion Or pulse current or current 261: high frequency short wave 33: nano ink 31

Claims (1)

201234760 VII. Patent application scope: 1·- Charge and discharge management system for charging and discharging power generation, including charging or discharging, or detecting, or activating, or stabilizing, or media or area management in the device, or The online management of the device 'in the operation of the charge and discharge management system' returns the output current of the grid minus the net value of the input current is greater than zero, which is extra than the original input current to reach the output current. - *. 2. A charge and discharge power generation unit consisting of one or more batteries or capacitors with magnets on either or both sides, coils or substrates or substrate film or insulating paper printed with coils wound around fixed to the battery or The inside or the outside of the capacitor or the surrounding magnet; or the magnet or coil in the battery or capacitor, or the magnet or coil, the battery or capacitor is charging or discharging, the magnet N or s pole magnetic field 'with the battery or During charging or discharging of the capacitor, electrons or ions or protons or molecules flowing between the positive and negative electrodes generate cutting magnetic lines, and the coil generates induced current or cooperates with the charging and discharging management system to reach the output current. 3. A charge and discharge power generation device comprising one or more batteries, ionization devices or ionization devices, with magnets on either or both sides, coils or substrates or substrate film or insulating paper printed with coils and wound around fixed to the battery Or the inside or outside of the ionizing device or the ionizing device or the surrounding magnet; or the aforementioned magnet or coil is hidden in the battery or device, or the magnet or coil is in the outside, and the battery or ionizing device or ionizing device is charging or discharging , magnetic field lines of magnets N and s, and electron or ion or proton or molecular flow between the positive and negative electrodes in the charging or discharging of the battery or ionization equipment or ionization equipment to generate cutting magnetic lines, the coil generates induced current or meets the charge and discharge management system to achieve output Current. 4. The charge and discharge management system of the charge and discharge power generation device according to claim 1 or 2 or 3 of the patent scope, for controlling the stability of charge and discharge of the battery device or the capacitor device or the ionization device or the ionization device, so the control The method in which the above-mentioned equipment is extremely long-lasting is 'inverted by the frequency conversion or pulse current control, or the device is extremely nano-structured, or the chemical reaction of the above device makes the nano-carbonization. 5. For charging and discharging power generation device according to the scope of claim 1 or 2 or 3, the 201234760 electric management system is used to control battery equipment or capacitors or battery equipment or ionization equipment or ionization equipment, or pulse In the control of current charging and discharging, one or more magnets and electric conductors are concealed in the device, and when charging or discharging, the internal electromagnetic pulse is generated by the electromagnetic short circuit to generate a pulse current or current. 6_ The charge and discharge management system of the charge and discharge power generation device according to claim 1 or 2 or 3, for controlling the battery device or the capacitor or the battery device or the ionization device or the ionization device, or for the variable frequency pulse current charging In the control of discharge, one or more magnets and conductors are concealed in the device, and an external magnet field is externally attached to the device. When charging or discharging, an electromagnetic pulse is generated in the device due to electromagnetic short circuit to generate a pulse current, and the magnitude or electrical conductor of the applied magnetic field is controlled. The conductivity is large, and the pulse current or current is generated. 7. A charge and discharge management system for a charge and discharge power generation device according to claim 1 or 2 or 3, or a current generated for generating a high frequency short wave, a battery device or a capacitor or a battery device or an ionization device or an ionization device The medium or area or management method of the distribution may be a porous medium, or a redox medium, or a medium of a solar cell material, or a dye-sensitized medium, or a medium that absorbs electromagnetic waves, or a chargeable and discharge medium, or a medium that reflects electromagnetic waves, a medium that shortens the wavelength of electromagnetic waves, or a medium that absorbs heat and discharge, or a medium that can divide a plurality of cell spaces, or an oscillation area that slows the wave speed of electromagnetic waves, or a period in which charging or discharging is adjusted, or Adjust the size of the charge or discharge resistor, or adjust the voltage, or adjust the size of the gravitational field. 8. A charge and discharge management system for a charge and discharge power saving device, including or charging, or discharging, or detecting, or activating, or stabilizing, or f or area management of the device, or online management of I The charge and discharge management green operation towel feedback output current of the grid is reduced by the small scale of the input and output of the electricity, and the input current of the county is replaced by the same amount or amount, which is connected to the current saver. 9. A charging and discharging power saving device comprising one or more batteries or capacitors, magnets on both sides or peripherals, coils or substrates or substrate paste or insulating paper printed with coils and fixed to the battery or capacitor Or both sides or the magnets inside or outside; or the magnets or coils of the power storage and reduction shaft, or the magnets or coils, the battery or capacitor is charging or discharging, the magnetic lines of the magnets N and s, and the battery or capacitor Charge or discharge between positive and negative electricity 33 201234760 sub or f sub or proton or molecular money generated _ magnetic line, or with the charge and discharge management system to save current. King α should be current ίο. - A kind of charging and discharging power saving device, which contains one or more cells or ionization equipment or ionization equipment, with magnets, coils or substrates or substrate film or insulating paper printed on or around or around The coil is wound around the inside or the outside of the magnet or the ion-off device or the ionizing device or the peripheral magnet; or the battery or device (4) the magnet or the coil, or the magnet or the ring, the battery Or the ionization device or the ionization device is being charged or discharged, the magnetic field line of the magnet pole, and the electron or ion or the wide or molecular flow between the positive and negative electrodes in the charge or discharge of the battery or the ionization device or the ionization device generate a cutting magnetic line, and the coil generates an induced current or With the charge and discharge management system to achieve current savings. 11. The charge and discharge management system of the charge and discharge power-saving device according to claim 8 or 9 or 10 of the patent application, for controlling the battery device or the capacitor or the battery device or the ionization device or the ionization device, charging or discharging or using electricity to compensate The stability occurs, so the method of controlling the long-term maintenance of the nanometering is controlled by the frequency conversion or pulse current control, or the device is extremely nanostructured, or the chemical reaction of the aforementioned device.钣 Nano. 12_The charge and discharge management system of the charge and discharge power-saving device according to the scope of claim 8 or 9 or 1 is to control the battery device or the capacitor or the battery device or the ionization device or the ionization device, or to generate electromagnetic waves. In the control of current and charge and discharge, one or more magnets and conductors are concealed in the device. When charging or discharging, electromagnetic waves are generated in the device due to electromagnetic short circuit, and electromagnetic waves induce current or current. 13. The charging and discharging management system of the charging and discharging power saving device described in claim 8 or 9 or 1 of the patent application is designed to control the battery device or the capacitor or battery device or the ionization device or the ionization device, or to generate a frequency conversion. Control of electromagnetic wave current and charge and discharge, one or more magnets and conductors are concealed in the device, and there is an external magnet field outside the device. When charging or discharging, electromagnetic waves are generated in the device due to electromagnetic short circuit, and electromagnetic wave current is generated. The magnitude of the applied magnetic field or the conductivity of the electrical conductor is controlled, and the electromagnetic wave generated by the frequency conversion induces a current or current. 14. The charging and discharging management system of the charging and discharging power saving device according to the scope of claim 8 or 9 or claiming to control the battery device or the capacitor or the battery device or the ionizing device 34 201234760 or the ionizing device is extremely sturdy, or is a raw electromagnetic wave In the control of the wavelength, one or more magnets and electrical conductors are hidden in the device, and an external magnet field is externally arranged in the device. When charging or discharging, electromagnetic waves are generated in the device due to electromagnetic short circuit, and the magnitude of the applied magnetic field or the conductivity of the electrical conductor is controlled. Raw or control electromagnetic waves of different wavelengths. 15. A charge and discharge management system for a charge and discharge power-saving device as described in claim 8 or 9 or 10, or a light-spreading device for generating low-frequency long-wavelength, battery devices or capacitors or battery devices or ionization devices or ionization devices The medium or area or management mode of the internal distribution may be a porous medium, a redox medium, or a medium that generates light and radiation in the presence of electromagnetic waves, or a medium of a fluorescent material, or a medium that absorbs electromagnetic waves, or may be charged and discharged. a medium, or a medium that reflects electromagnetic waves, or a medium that scatters electromagnetic waves, a medium that lengthens the wavelength of electromagnetic waves, or a medium that absorbs heat, or a medium that can be one or more layers of a film, or a medium that can divide a plurality of cell spaces. Or, change the contact area of the electromagnetic wave velocity, change the period of charging or discharging, adjust the size of the charging or discharging resistor, adjust the magnitude of the voltage, or adjust the magnitude of the gravitational field. 16. If the charge and discharge management system of the charge and discharge power-saving device described in claim 15 of the patent application is for generating low-frequency long-wavelength, the battery device or the capacitor or battery device or the ionization device or the ionization device is transparent or Partially transparent, can be converted into a light or illuminant or TV screen. 17. The charging and discharging management system of the charging and discharging power saving device described in claim 16 of the patent application, which generates light and radiation for generating low-frequency long-wavelength, and the peripheral of the thinned battery device or capacitor or battery device or ionization device or ionization device is Transparent or partially transparent, or matched with thin film magnets and thin film conductors, can be converted into a light-emitting film or thin film illuminator or thin film TV screen. 18. A charge-discharge power generation and a magnetic-magnet synchronous magnetic generator, the main system comprising: at least one generator unit, the generator unit mainly comprising: · a magnetic air duct unit, which is formed by a certain thickness and multi-polarity The ventilation duct formed by the ring-shaped or polygonal permanent magnet is fixed, and the magnetic drive unit and the power generating coil unit may be included from the outside or the inside; a power generating coil unit includes one or more power generating coils having a disk shape, and the center has an axis The hole and the rotating shaft are connected, and the coils are printed on the surface of the substrate film or the insulating paper, or the coils are printed on the surface of the substrate film or the insulating paper, and the printed circuit is surrounded by a center or a cavity. a metal magnetically conductive object, the magnetic pole of the power generation substrate 35 201234760 has the ability to drive the rotation of the rotating shaft; ^ it = electrical device, comprising one or more batteries or capacitors, two substrates or substrate film or insulating paper printing Coil and wrap around the battery or capacitor or the inside or outside of the surrounding magnet; the magnet or coil of the animal or capacitor Then there may be the aforementioned magnet or 3, 'animal battery or capacitor is charging electricity, take the N, s pole magnetic line, and or capacitor charge or discharge between the positive and negative electrons or ions or protons or molecules i to the production line 'Lai New Sewing wire level management system ^ battery or capacitor or circuit unit, one end is connected to the magnetic drive unit, the center of the drive, the drive unit needs to start the power, the other end is connected to recycle or send _ force drive fresh yuan electricity The power of the material ^ Guan early 疋 ' |9 · A charge and discharge power generation and magnetic magnetic synchronous magnetic generator, the main system includes: at least one generator unit, the generator unit mainly includes: dimeric magnetic air duct The unit is fixed by a ventilation duct formed by a certain thickness of a multi-polar ring type or a polygonal permanent magnet, and may include a magnetic drive unit and a power generating coil unit from the outside or the inside; the power generating coil unit includes one or more discs. The power generating coil, the center shaft hole and the rotating shaft are connected, and the coils are printed on the surface of the substrate film or the insulating paper, or the lines are printed on the surface of the substrate film or the insulating paper. The loops are stacked in a disk shape, and the printed coil surrounds the center or the cavity contains a metal magnetic conductive object, and the power generating substrate film or the insulating paper is wound around the printed electric pole coil which is circularly printed or circularly printed. a disk shape, and a magnetic line formed by the magnetic flux tube unit is cut; a magnetic drive unit includes one or more energized coils generated by the power generating coil, and is disposed between the power generating coils disposed on the straight line of the rotating shaft to drive the magnetic force The magnetic pole of the unit has the ability to drive the rotation of the rotating shaft; a battery or a capacitor or a circuit unit, one end of which is connected to the magnetic driving unit to provide the starting power required for the driving unit to operate, and the other end is connected to the generating coil unit, 36 201234760 Recovers or sends power from a magnetic drive unit or generator coil unit. 2〇··································································· Wrapped with _ or substrate _ or the surface of the paper is printed with a wire 圏 folded into a thin sheet to be fixed around, and the current is passed through the printed coil and the magnetic line formed by it is perpendicular or cut to generate an induced current again. 21. The power generating and collecting magnetic synchronous magnet generator according to claim 18 or 19, wherein the generating coil unit further comprises one or more generating coil units, and is fixed to the collecting magnet The air tube rotating shaft connecting line is connected with the magnetic driving unit, the power generating coil unit is rotated by electromagnetism, and the generating coil is disposed inside or outside the collecting magnetic tube. 22. The power generating and collecting magnetic synchronous magnet generator according to claim 18 or 19, wherein the generating coil unit is provided with a coil in the form of a disk on the surface of the substrate film or the insulating paper, and the shaft has a shaft at the center of the disk. Holes, around the shaft hole or with conductive printed lines. 23. The power generating and collecting magnetic synchronous magnet generator according to claim 18 or 19 or 22, wherein the generating coil unit is provided with a conductive printed coil surface of the substrate film or the insulating paper by radioactive or The coil is wound around the circle of the vortex or around the circle of the convolution to achieve electrical conduction. 24. The power generation and magnetism-type synchronous magnetic generator according to claim 18 or 19, wherein the power generating coil unit transmits the power generating coil wire by inserting a wire body into the center of the rotating shaft connection. Rotate the export. 25. The power generating and collecting magnetic synchronous magnetic generator according to claim 18 or 19, wherein the generating coil unit has a power generating coil wire which is a small wire having a plurality of cross-sectional areas and surface areas in the rotating shaft. Forming a large line, due to the focus of the magnetic center, the magnetic center field and the wire wearing area and surface area cutting during rotation will also generate excess current. 0 26 · The charging and discharging type and the magnetic charging type as described in claim 18 or 19 of the patent application Synchronous magnetic generator, the power generating coil unit whose rotating coil of the power generating coil is fixed to the _ connecting line of the adjacent disc-shaped generating coils between 0 and 90 every time 2012. 27. The charging and discharging magnetic synchronous magnet generator according to claim 18, wherein the substrate film of the power generating coil of the power generating coil refers to a printed circuit adhesive # or a tree thermal insulating insulating sheet or Thermal adhesive #, or insulating paper refers to nano ink printed conductive material 'both can be printed circuit, can be hard or soft. 28. The power generating and magnetizing synchronous magnetic generator according to claim 18 or 19, wherein the metal-conducting object of the generating coil unit is an iron-nickel alloy or other nano-metal composite material. 29. The power generating and collecting magnetic synchronous magnetic generator according to claim 18 or 19, wherein the magnetic driving unit further comprises one or more magnetic driving units fixed to the generator The unit is coupled to the power generating coil unit on the axis of rotation of the collecting magnetic duct; the magnetic driving unit is formed by a plurality of substrate films or an electric pole coil printed on the surface of the insulating paper. The magnetic pole rotates between the plurality of magnetic poles by the drain and the S pole. 30. The power generating and collecting magnetic synchronous magnetic generator according to claim 18 or 19, wherein the magnetic driving unit further has a rotating shaft connected to the generating coil unit to form a fan shape as a driving force, when the double The magnetic pole fan driving element gathers the magnetic air duct unit on both sides of the rotating shaft to form a co-construction, and can load more power generating coils in the polymagnetic air duct unit. 31. The power generating unit and the magnetic-magnetizing synchronous magnetic generator according to claim 18 or 19 or 29, wherein the magnetic drive unit further generates magnetic lines of force generated by the respective magnetic poles in the same direction, and the magnetic magnetic duct The magnetic lines of force formed are in the same direction. 32. The power generating and collecting magnetic synchronous magnetic generator according to claim 18 or 19 or 29, wherein the magnetic driving unit further absorbs the drain and the S pole formed by the magnetic poles, and is plural The number of the substrate or the surface of the insulating paper is printed on the surface of the disk. The electric poles are arranged on the disk. The printed electric dipole coils are arranged in a number of discs, and are sequentially energized. 38 201234760 33. As claimed in claim 18 or 19, the charge-discharge power generation and magneto-magnet synchronous magnetic generator, the force drive unit is further configured to be a magnetism-containing shaft with a magnetism The attraction force of the magnetic axis 'places a small magnet or electromagnetic coil on the opposite side of the magnetizing duct, so that the rotating shaft can be rotated and attracted. . 34. The power generating and collecting magnetic synchronous magnetic generator according to claim 18 or 19, further comprising a power turbofan including a magnetic collecting duct, wherein the power fan includes a generating coil unit The power generating coil unit is connected to the system to generate the required power. 35. The charging and discharging magnetic synchronous generator according to claim 18 or 19, wherein the battery or the capacitor or the circuit unit is partially converted into a frequency converter or a pulse, and the battery or capacitor is recharged. The current is turned back to zero in the battery or capacitor or battery liquid. 39