JP3242321U - Gravity Wheel Magnetic Energy Internal Cycle Generator - Google Patents

Abstract

A gravity wheel magnetic energy internal circulation generator with improved power generation efficiency is provided. A manual actuator (1) is connected to a power transmission part by a belt to rotationally drive a transmission shaft (7), and the transmission shaft is a belt pulley connected between a first flywheel (3) and a magnetic machine (4) by a belt. , the belt pulley connected between the magnetic actuator 5 and the solenoid coil gravity wheel 6 is connected and driven to rotate, and at the same time the magnetic actuator rotates to generate power, which is transmitted to the solenoid coil gravity wheel through the conductor; The solenoid coil gravity wheel rotates after energization, increases the rotational speed, and is connected to the transmission shaft by belt transmission, and the transmission shaft drives the first generator 8 and the second generator 19 in the power transmission component to generate power. The first flywheel and the magnetic machine are driven to rotate, and the magnetic actuator is driven to rotate at the same time to generate electricity, which is supplied to the solenoid coil gravity wheel to generate ferromagnetic repulsion and increase the rotation speed. [Selection drawing] Fig. 1

Description

TECHNICAL FIELD The present invention relates to the technical field of magnetic energy power generation, in particular to a gravity wheel magnetic energy internal circulation generator.
Background technology

At present, most of the energy used at home and abroad is restricted by geographical conditions and causes great pollution to the living environment of human beings. , and at the same time are closely related to people's daily lives. With the rapid development of social production, due to the demands of human survival, the finite energy in many mining is becoming scarce and will one day run out. However, power generation from conventional energies in use, such as coal, natural gas, oil, wind, hydropower, solar energy, nuclear energy, etc., each have drawbacks. Thermal power generation is highly polluting the environment, fuel power generation is noisy, automobile fuel emits a lot of carbon dioxide, hydropower and wind power are affected by seasons and regions, solar power is expensive, and at the same time With a very large area, nuclear power generation is at risk of radiation leakage. All of the above energy sources require a large amount of investment, a large number of transportation equipment and personnel, and the cost is high.

At present, the research and application of various energy-saving products can only reduce the energy consumption rate to a limited extent, and essentially cannot alleviate the energy crisis. For this reason, the world is threatened by future energy depletion and environmental pollution, and the development of clean and efficient new energy has become a common issue for countries around the world.

Generators refer to mechanical equipment that converts other forms of energy into electrical energy, driven by hydroturbines, gas turbines, diesel engines or other power machines to produce energy by water flow, air flow, fuel combustion or nuclear fission. It is converted into mechanical energy and transmitted to the generator, which converts it into electrical energy. Although there are many types of generators, all of them are based on the laws of electromagnetic induction and the laws of electromagnetic force.

However, conventional generators have high power generation costs, low work efficiency, and pollution problems. Therefore, the gravity wheel magnetic energy internal circulation generator has become a problem to be solved.

The technical problem to be solved by the present invention is to provide a gravity wheel magnetic energy internal circulation generator with low energy consumption.

In order to solve the above technical problems, the present invention provides the following technical means. A gravity wheel magnetic energy internal circulation type generator comprising a manual actuator, a power transmission component and a first flywheel provided on a fixed shaft and connected in sequence, a magnet machine, a magnetic actuator, a solenoid coil gravity wheel, wherein the manual actuator is connected to the power transmission part by a belt to rotationally drive its transmission shaft, said transmission shaft is connected by a belt to the belt pulley between the flywheel and the magnetic machine on the fixed shaft to rotationally drive it, and the first A flywheel, a magnetic machine, a magnetic actuator, and a solenoid coil gravity wheel are simultaneously driven to rotate, and the magnetic actuator is moved by a belt pulley to rotate by inertia to generate electricity, and power is circulated around the solenoid coil gravity wheel through a conductor. power is transmitted to the third solenoid coil installed, the solenoid coil repels the second permanent magnet in the solenoid coil gravity wheel after energization, causing it to rotate, and is connected to the transmission shaft by belt transmission, and the transmission shaft transmits power Gravity wheel magnetic energy internal circulation generator for driving the first generator and the second generator in the component. By using the manual device as a power source, the input of the force drives the devices such as the first flywheel and the magnetic machine, and the magnetic actuator rotates by inertia to generate power. , the generated electric power is supplied to the third solenoid coil installed around the outer circumference of the solenoid coil gravity wheel to increase its repulsive force, drive the second permanent magnet to rotate it, and provide greater power. Then, it is input to the first and second generators to stably improve the amount of power generation.

Furthermore, a first permanent magnet is provided around the first flywheel, and first solenoid coils connected to the power output conductors of the first generator are installed on all sides of the first flywheel. The first permanent magnet and the energized first solenoid coil generate mutual repulsive force and rotate, thereby increasing the rotation speed of the first flywheel and improving its output power.

Further, a second permanent magnet is provided around the solenoid coil gravity wheel, and a third solenoid coil provided around the outer circumference of the solenoid coil gravity wheel generates a ferromagnetic force after energization, causing the second permanent magnet to It repels the magnetic force to generate a strong repulsive force, and also drives the solenoid coil gravity wheel to rotate it, so that the first and second generators generate more power.

In addition, the power transmission component includes a second flywheel having a rotating bearing connected to both sides by a transmission shaft and a coupling, which are sequentially and symmetrically installed, and both ends of the transmission shaft are connected to the first power generator. and a second generator to rotate them to generate electricity, and the power output ends of the first and second generators are connected to the shunt regulator. The two-way power output drives the two generators simultaneously to improve the amount of power generated, and fully utilizes the power output from each power output device.

Furthermore, the structure of the second flywheel is similar to that of the first flywheel. Adding a second flywheel improves its inertial output capability, enhances its power output effect, and better drives the first generator and the second generator.

Further, fixed holders are provided at both ends of the fixed shaft, the left side of the fixed shaft is a hollow shaft, the right side is a solid shaft, and one end of the lead wire integrates the magnetic actuator and the fixed shaft. After penetrating the left hollow shaft, it is connected to the third solenoid coil that surrounds the outer circumference of the solenoid coil gravity wheel. The hollow shaft design on the left side allows the wires to pass through and connect, reducing the space occupied and at the same time preventing the wires from getting tangled during the rotation process.

The advantages of the present invention over the prior art are as follows. The present invention rotates by manual driving force to rotate the connected first flywheel, magnetic force machine, magnetic actuator and solenoid coil gravity wheel at the same time. At the same time, the magnetic actuator rotates to generate power, which is supplied to the solenoid coils that are installed around the outer periphery of the solenoid coil gravity wheel, generates a ferromagnetic repulsive force to increase the rotation speed, and further drives the generator to generate power, resulting in power generation efficiency. improve.

1 is a schematic structural diagram of a gravity wheel magnetic energy internal circulation generator according to the present invention; FIG.

In describing the present invention, the terms "upper", "lower", "front", "back", "left", "right", "inner", "outer", "longitudinal", "circumferential", etc. Any orientation or positional relationship shown is based on the orientation or positional relationship shown in the drawings, and is merely for the purpose of facilitating and simplifying the description of the invention, and the device or element shown is based on the orientation or positional relationship shown in the drawings. and is understood not to indicate or imply that it must be configured and operated in any given orientation. As such, it should not be construed as limiting the invention.

In the description of the invention, the terms "first feature" and "second feature" may include one or more of said features. Also, the terms "first" and "second" are only for the purpose of describing purposes and indicate or imply relative importance or implicitly indicate the quantity of technical features indicated. should not be understood as a thing. Thereby, a feature defined by "first" and "second" may express or imply inclusion of one or more of said features.

In the present invention, terms such as "mounting", "coupling", "connecting", "fixing" should be understood broadly unless otherwise clearly defined or limited. For example, it may be fixedly connected, detachably connected, or integrally connected. They may be mechanically connected or electrically connected. They may be directly connected, they may be indirectly connected through an intermediate medium, and the insides of the two components may be in communication. A person skilled in the art can understand the specific meaning of the above terms in the present invention according to the specific situation.

In the description of the present invention, descriptions such as "one embodiment", "some embodiments", "example", "specific example", or "some examples" refer to the embodiment or example is included in at least one embodiment or example of the invention. In the present invention, the general descriptions of the terms above do not necessarily indicate the same embodiment or example. And, the specific features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Hereinafter, the gravity wheel magnetic energy internal circulation type first generator according to the present invention will be described in more detail with reference to the drawings.

The present invention will be described in detail with reference to FIG.

A gravity wheel comprising a manual actuator 1, a power transmission component and a first flywheel 3 provided and connected in turn on a fixed shaft 2, a magnetic machine 4, a magnetic actuator 5, a solenoid coil gravity wheel 6, a magnetic energy internal circulation generator. , the manual actuator 1 is connected to a power transmission component by a belt to rotate its transmission shaft 7, and the transmission shaft 7 is connected by the belt to the belt pulley 21 between the first flywheel 3 and the magnetic machine 4 on the fixed shaft 2. and rotates it, and also rotates the first flywheel 3, the magnetic machine 4, the magnetic actuator 5, and the solenoid coil gravity wheel 6 at the same time. The magnetic actuator 5 is driven by the belt pulley 21 to rotate and generate electric power, which is transmitted to the third solenoid coil 20 installed around the outer circumference of the solenoid coil gravity wheel 6 through the conducting wire, and the third solenoid coil 20 is energized. The second permanent magnet 11 in the solenoid coil gravity wheel 6 is repulsed to rotate it, and is connected to the transmission shaft 7 by belt transmission, and the transmission shaft 7 drives the first generator 8 and the second generator 19 in the power transmission component. Drive to generate electricity.

A first permanent magnet 9 is provided around the first flywheel 3, and first solenoid coils 10 connected to power output conductors of the first generator 8 are installed on the top, bottom, left, and right of the first flywheel 3. there is

A second permanent magnet 11 is provided around the solenoid coil gravity wheel 6, and the third solenoid coil 20 generates a ferromagnetic force after energization, interacts with the second permanent magnet 11, and generates a ferromagnetic repulsive force. to rotate it.

The power transmission component includes a second flywheel 12 having a rotating bearing 13 connected to both sides by the transmission shaft 7 and a coupling 14 arranged symmetrically in sequence. The generator 8 and the second generator 19 are connected to rotate and generate power, and the power output terminals of the first generator 8 and the second generator 19 are connected to the shunt regulator 15 .

The structure of the second flywheel 12 is similar to that of the first flywheel 3 .

Fixed holders 16 are provided at both ends of the fixed shaft 2. The left side of the fixed shaft 2 is a hollow shaft, the right side is a solid shaft, and one end of a conductor wire is connected to the left side where the magnetic actuator and the fixed shaft are integrated. After passing through the hollow shaft, it is connected to the third solenoid coil 20 .

The specific implementation process of the gravity wheel magnetic energy internal circulation generator according to the present invention is as follows.

The initial power is provided by moving the manual actuator 1, the power is transmitted to the transmission shaft 7 by the rotation of the belt and pulley 21, and the power is transferred to the first flywheel 3 and the magnetic force by the rotation of the belt and pulley 21. The belt pulley 21 to which the machine 4 is connected, the magnetic actuator 5 and the solenoid coil gravity wheel 6 are connected to the belt pulley 21, and the belt pulley 21 is connected to the first flywheel 3, the magnetic machine 4, the magnetic actuator 5, and the solenoid coil The gravity wheel 6 was rotationally driven at the same time. The fifth permanent magnet 23 provided around the magnetic machine 4 and the fourth permanent magnet 22 provided around the outer periphery interacted with each other after rotation to generate a repulsive force to rotate it. At the same time, the magnetic actuator 5 generates electricity when it rotates, and the power generated by the magnetic actuator 5 is transmitted to the third solenoid coil 20 through the conducting wire. It was rotated and the solenoid coil gravity wheel 6 was driven to accelerate the rotation. The solenoid coil gravity wheel 6 accelerates its rotation and transmits power to the transmission shaft 7 through the belt and belt pulley 21, and the transmission shaft 7 drives the first generator 8 and the second generator 19 to generate electricity. A part of the electric power generated by the two generators was supplied to the external power utilization equipment by the shunt regulator 15 and the other part was input to the first solenoid coil 10 and the second solenoid coil 18 . A first permanent magnet 9 is provided around the first flywheel 3, a third permanent magnet 17 is provided around the second flywheel 12, and the first solenoid coil 10 and the first flywheel 3 after energization. The first permanent magnet 9 in magnetically repels to drive the first flywheel 3 to accelerate the operation, the second solenoid coil 18 and the third permanent magnet 17 in the second flywheel 12 magnetically repel, the second flywheel The wheels 12 were driven to accelerate the operation and further increased power to form a power cycle. By combining three sets of belts and belt pulleys 21, power input, output after power enhancement, and power cycle transmission are realized, and two sets of upper and lower mechanisms are connected to achieve internal circulation type power generation.

Although the present invention and its embodiments have been described above, this description is not limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited to this. . In other words, all similar structural methods and embodiments of the technical means designed without creativity without deviating from the spirit of creation of the present invention should fall within the scope of protection of the present invention. is.

1 Manual actuator 2 Fixed shaft 3 First flywheel 4 Magnet machine 5 Magnetic actuator 6 Solenoid coil gravity wheel 7 Transmission shaft 8 First generator 9 First permanent magnet 10 First solenoid coil 11 Second permanent magnet 12 Second fly Wheel 13 Bearing 14 Coupling 15 Shunt adjuster 16 Fixed holder 17 Third permanent magnet 18 Second solenoid coil 19 Second generator 20 Third solenoid coil 21 Belt pulley 22 Fourth permanent magnet 23 Fifth permanent magnet

Claims (7)

A gravity wheel comprising a manual actuator 1, a power transmission component and a first flywheel 3 provided and connected in turn on a fixed shaft 2, a magnetic machine 4, a magnetic actuator 5, a solenoid coil gravity wheel 6, a magnetic energy internal circulation generator. in
the manual actuator 1 is connected by a belt to a power transmission component to rotate its transmission shaft 7, and the transmission shaft 7 is connected by a belt to a belt pulley 21 between the first flywheel 3 and the magnetic machine 4; It is driven to rotate, and the first flywheel 3 and the magnetic machine 4 are driven to rotate by the belt pulley 21, the magnetic actuator 5 rotates to generate power, and the solenoid coil gravity wheel 6, the solenoid coil gravity wheel 6 rotates after energization, increases the rotational speed, and is connected to the transmission shaft 7 by belt transmission, the transmission shaft 7 being the first generator 8 and the second generator 8 in the power transmission parts. A gravity wheel magnetic energy internal circulation type generator characterized by driving the generator 19 to generate electricity. A first permanent magnet 9 is provided around the first flywheel 3, and first solenoid coils 10 connected to power output conductors of a first generator 8 are installed on the top, bottom, left, and right of the first flywheel 3. The gravity wheel magnetic energy internal circulation generator as claimed in claim 1, characterized by: A second permanent magnet 11 is provided around the solenoid coil gravity wheel 6, and a third solenoid coil 20 is provided around the outer periphery of the solenoid coil gravity wheel 6. The gravity wheel magnetic energy internal circulation generator according to claim 2, characterized in that it interacts with two permanent magnets (11) to produce a ferromagnetic repulsive force to rotate it. The power transmission component includes a second flywheel 12 having a rotating bearing 13 connected to both sides by a transmission shaft 7 and a coupling 14 arranged symmetrically in order, and both ends of the transmission shaft 7 are The first generator 8 and the second generator 19 are connected to rotate and generate power, and the power output terminals of the first generator 8 and the second generator 19 are connected to the shunt regulator 15 . Gravity wheel magnetic energy internal circulation generator according to claim 3, characterized in that. A third permanent magnet 17 is provided around the second flywheel 12, and second solenoid coils 18 connected to power output conductors of the first generator 8 are installed on the top, bottom, left, and right of the second flywheel 12. The gravity wheel magnetic energy internal circulation generator according to claim 4, characterized in that: Fixed holders 16 are provided at both ends of the fixed shaft 2. The left side of the fixed shaft 2 is a hollow shaft and the right side is a solid shaft. The gravity wheel magnetic energy internal circulation generator according to claim 5, characterized in that it is connected to the third solenoid coil (20) after penetrating through the left hollow shaft. The fifth permanent magnet 23 provided around the magnetic machine 4 and the fourth permanent magnet 22 provided around the outer periphery of the magnet machine 4 interact with each other to generate a repulsive force to rotate the magnet. Item 6. The gravity wheel magnetic energy internal circulation generator according to item 5.

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