JP2013040605A - Continuous electromagnetic induction mechanism by repulsion magnet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a highly-efficient electromagnetic induction power generation mechanism of a see-saw structure utilizing repulsive reciprocating motion of a magnet with a small power in an energy saving manner.SOLUTION: In an electromagnetic induction power generation unit made up of a coil holding cylinder 3 with a built-in magnet slide channel 9 having a freely moving homopolar repulsion magnet 11, a power generation unit holder 4 of a see-saw structure, and a see-saw main shaft support rack 14, an alternate current is obtained utilizing a see-saw like reciprocating inertial motion by the inclination by an initial motion external force, and the attenuating reciprocating motion is supplemented by a small auxiliary energy for continuous power generation. Furthermore, a plurality of the electromagnetic induction power generation units 2 are arranged in parallel and in a multistage way. They are synchronized with each other by a link mechanism, and their respective coil ends A and B are connected to each other in parallel and connected to a transformer in a subsequent part to obtain a necessary electric power.

Description

  The present invention relates to a power generation mechanism based on an electromagnetic induction method that uses a simple and small magnetic repulsion operation without using nuclear power, thermal power, hydraulic power, sunlight, wind power, geothermal heat, or the like.

  Conventionally, in a power generation mechanism for power generation, even in the case of nuclear power and thermal power, those that generate steam by using their thermal energy and rotate the generator, and those that also use thermal energy are directly steamed in geothermal power generation. Anything that turns a generator, something that uses kinetic energy, like a hydroelectric power generator that uses a dam's potential energy to turn a generator, and wind power that directly transmits wind kinetic energy to the generator. There was a common feature of turning a generator, but unlike solar power generation, a rotary generator is not necessary, and light energy is directly converted into electricity. Power is not allowed to stop even for a moment in a modern advanced civilized society, but it also has major problems in order to stably supply and maintain power. Those that use thermal energy continuously require fossil fuels, biofuels, and nuclear fuels. Therefore, it is important to secure stable energy sources and large-scale power generation facilities. Furthermore, the safety of nuclear power generation is a big problem all over the world. In recent years, solar power generation, wind power generation, and the like have been highlighted as renewable energy, but solar power generation is easily influenced by solar radiation conditions and naturally cannot generate power at night. Even wind power cannot generate electricity unless the wind is strong, and the installation location is also a problem, and advanced power storage devices that are necessary to make up for the shortcomings are still under development. There is no situation. Today, there are a variety of thermal energy sources that we can use, such as oil, natural gas, coal, and nuclear fuel, but many of them have been converted to electric energy. This is a proof of universal energy. This also tells us that the presence of energy resources is a national security issue.

  As mentioned in the prior art, there are various conventional power generation methods, but the majority of the power generation has to depend on thermal power and nuclear power, and there is no problem in ensuring the stability of finite energy resources. That wasn't true. As for renewable energy, there are power generation systems using solar power and wind power, but none of them has reached the level of a complete power generation system. There are many problems that need to be solved such as location problems, high costs, efficient power storage devices, and toughness against natural disasters. The present invention is made in view of such a conventional technique, and does not abuse a finite energy resource inefficiently to obtain electric power energy, but obtains a power generation mechanism with low power and energy saving with high efficiency. That was the issue.

  In order to solve this problem, the present invention employs an electromagnetic induction power generation mechanism having a seesaw structure that uses repulsive reciprocation of a magnet. According to Faraday's law and the like, it is known that an operation of moving a magnet close to or away from a coil of a conductive wire generates an electromotive force that causes a current to flow through the coil of the conductive wire. All kinds of generators and motors were created by applying this principle.

  While recognizing this principle, it is important to have a method in which the magnet is continuously moved closer to or away from the coil of the conductive wire while minimizing the external force. For this purpose, the present invention utilizes the mutual repulsion of three magnets. After the center floating magnet stored in the magnet slide channel moves to one side with the first external force, the center of gravity moves while returning to the original direction by repulsion with the left and right fixed magnets. The electromagnetic induction power generation unit may be tilted like a seesaw as it moves. The electromagnetic power generation unit is fixed to a power generation unit holding body having a seesaw structure, but the inclination is balanced between the right and left at the main shaft portion at the center in the left-right length direction. In the electromagnetic induction power generation unit, a conductive wire is wound around a cylindrical coil holding cylinder a plurality of times as appropriate, and the left and right coil terminals are kept at an appropriate length so as not to interfere with the seesaw motion. Alternatively, the coil terminal may be spiral processed. An end cap is fitted to the outside of the left and right ends of the coil holding cylinder formed in this way, and a hole through which the magnet slide channel passes is provided at the center of the end cap. The magnet slide channel to be inserted is longer than the coil holding cylinder and jumps out from the left and right end caps. The length of the pop-out is larger than two magnets. The magnet slide channel may have a cross-sectional shape such as a so-called C-shaped channel, or may be a round pipe or a square pipe, but it is sufficient that the air pushed by the moving magnet can be exhausted without resistance so that the moving magnet does not leave the channel. The inner surface of the magnet slide channel may be lined with a resin having a low frictional resistance such as Teflon (trademark) in order to make it easier to slide, or may have a structure in which silicon oil can be injected. Three of the three magnets installed in the magnet slide channel are fixed at both ends, and the other one is moved so as to repel the magnetic poles at both ends. The magnet is small and powerful, but it interferes to suppress the movement of the magnet that also moves freely during power generation, so the size of the magnet and the number of coil turns must be continuous. Must be set to The distance that can be moved by the repulsion of the magnet is also important, but these are obtained by the correlation of each element. When the electromagnetic induction power generation unit configured in this way is attached to the seesaw spindle support rack and one end of the electromagnetic induction power generation unit is pushed down with a finger or the like, a continuous seesaw motion is started. An angle adjustment plate is provided below the main shaft of the seesaw main shaft support so that stable seesaw motion can be maintained. With such a configuration, the electromagnetic induction power generation unit continuously tilts like a seesaw in accordance with the movement of the center of gravity of the idle magnet, and generates an AC voltage. However, since this motion will eventually converge due to gravity and friction, it is necessary to maintain the seesaw motion by applying an external force intermittently using a part of the generated current. Further, in order to make this intermittent external force as small as possible, the left and right balances may be strict and balance adjusting screws for adjusting the balance may be provided at both ends. Furthermore, this intermittent external force can be replaced with renewable energy instead of using the power generated by the mechanism itself.

  The above is the basic concept of an electromagnetic induction power generation mechanism using a repelling magnet. In order to obtain a practically large output, a plurality of the electromagnetic induction power generation units may be arranged in parallel and in multiple stages. In this case, in order to synchronize the seesaw motion, it is necessary to precisely link the movements of the electromagnetic induction power generation units. However, a link rod or the like is attached to a connecting shaft provided at a predetermined position of the power generation unit holder of the seesaw structure. Link. In order to secure the target power, a general-purpose transformer having a necessary capacity in the subsequent stage may be configured. In this case, the current capacity can be increased by connecting the coil terminals in the respective directions.

  As described above, the continuous electromagnetic induction mechanism using repulsive magnets according to the present invention has the effect of generating AC voltage continuously and at low cost efficiently with a small auxiliary energy while utilizing the reciprocal inertial motion of polarity repulsion between magnets. .

  The external force for maintaining the reciprocating inertial motion of the magnet is extremely small, and it has the effect of being able to generate electricity even in the rain or at night by using the kinetic energy of a small river flow.

  Since there is no rotating part, it is comparatively quiet and has an effect that the life of the mechanism itself is lengthened.

  The concept of the present invention will be described with reference to FIGS. 1 to 4. FIG. 1 is a perspective view showing a component configuration of a continuous electromagnetic induction mechanism 1 using a repelling magnet according to the present invention. The electromagnetic induction power generation unit 2 is composed of a coil holding cylinder 3 and a seesaw-structured power generation unit holder 4. The coil holding cylinder 3 is housed in a semi-cylindrical portion of the seesaw-structure power generation unit holder 4. The left and right end caps 8 are locked with bolts 19. The end cap 8 is covered with the coil holding cylinder 3 and can be passed through and locked in the center with a magnet slide channel 9 described later, and is obtained as a resin molded product. The magnet slide channel 9 inserted and fixed so as to pass through the cross section of the coil holding cylinder 3 is loose when the seesaw-structured power generation unit holder 4 supported by the seesaw spindle support frame is tilted by the initial external force. As a result, the magnet 11 slides and moves to the inclined side, and as a result, it repels the fixed magnet 10 at the end of the magnet slide channel 9 and slides again to the opposite side so that the center of gravity changes and the opposite side tilts when it passes over the vicinity of the main shaft 15. It has become. Electromagnetic induction power generation is performed by repeating the reciprocal inertial motion due to the polarity repulsion between the magnets. However, since this motion is attenuated with the passage of time due to resistance such as friction, it is necessary to give supplementary kinetic energy. However, a method for applying this supplemental kinetic energy will not be described. This is because the purpose of this patent is to obtain a new electromagnetic induction mechanism.

  The magnet slide channel 9 is like a so-called extrusion C channel, and its flange prevents the magnet from coming off, and both ends are closed. The fixed magnets 10 are fixed to both ends, respectively, but are installed with a polarity in such a direction as to repel the floating magnet 11. The magnet slide channel 9 may be a round pipe or a square pipe as long as the air pushed by the floating magnet can be exhausted without resistance. The three magnets may be the same, and small and powerful ones are used. However, since the interference that suppresses the movement of the magnets that also move freely during power generation is given, the magnet size and the number of coil turns are continuous. The conditions must be set so that the seesaw movement continues. Further, the distance and angle at which the magnets can move due to the repulsion between the magnets are also important.

  In FIG. 3, the continuous seesaw motion of the continuous electromagnetic induction mechanism 1 by the repulsion magnet comprised in this way is shown.

  FIG. 4 shows the continuous electromagnetic induction mechanism 1 with repulsive magnets as shown in claim 2, and the connecting shaft 16 is used for connecting in parallel, and the link rod 17 connecting the upper and lower connecting shafts 16 is used when stacked in multiple stages. In this case, the coil terminal A6 and the coil terminal B7 of each electromagnetic induction power generation unit are connected in parallel.

  In the case of such a parallel multi-stage type, the seesaw main shaft support rack 14 and the base 13 have a strength sufficient to withstand the weight and vibration of the supporting member. Note that a structure covering the whole may be used.

  The present invention configured as described above has an extremely high industrial utility value as a new means for securing electric power that is friendly to the earth.

  It is a perspective view which shows the components structure of the continuous electromagnetic induction mechanism by the repulsion magnet of this invention.   It is a top view of the coil holding cylinder of the present invention.   It is a conceptual diagram which shows operation | movement of the continuous electromagnetic induction mechanism by the repulsion magnet of this invention.   It is a perspective view of the continuous electromagnetic induction mechanism by the repulsion magnet shown in Claim 2 of this invention.

DESCRIPTION OF SYMBOLS 1 Continuous electromagnetic induction mechanism by a repulsion magnet 2 Electromagnetic induction power generation unit 3 Coil holding cylinder 4 Seesaw-type power generation unit holding body 5 Coil 6 Coil terminal A
7 Coil terminal B
8 End cap 9 Magnet slide channel 10 Fixed magnet 11 Floating magnet 12 Magnet fixture 13 Base 14 Seesaw spindle support 15 Spindle 16 Connecting shaft 17 Link rod 18 Adjustment plate 19 Bolt 20 Balance adjustment bolt

Claims (2)

  Electromagnetic induction power generation comprising a coil holding cylinder containing a magnet slide channel having two fixed magnets at both ends of the channel and one floating magnet having the same polarity repelling them, a power generation unit holder with a seesaw structure, and a seesaw spindle support frame In the unit, when an initial external force is applied, the floating magnet inside the magnet slide channel moves to the tilted side due to the tilt, and instantaneously slides to the opposite side due to the same-pole repulsion with the fixed magnet at the channel end to support the seesaw spindle When passing near the rack, the balance is changed to the other fixed magnet, the same pole repulsion is received again to obtain alternating current using the seesaw-like reciprocating inertial movement, and the damped reciprocating movement is a small assist Continuous electromagnetic induction mechanism with repulsive magnets that can be stored with natural energy for continuous power generation.   A plurality of electromagnetic induction power generation units are arranged in parallel and in multiple stages, and these are synchronized by a link mechanism, and each coil terminal is connected in parallel and connected to a subsequent transformer to obtain the necessary power. 2. A continuous electromagnetic induction mechanism using a repulsive magnet according to claim 1.

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