阅读说明：本技术 磁性动能重力惯性发生器 (Magnetic kinetic energy gravity inertia generator ) 是由 林国江 于 2019-11-28 设计创作，主要内容包括：本发明涉及一种发电机及相关机械设备的动力装置,尤其是一种磁性动能重力惯性发生器。该发明在飞轮的外表面装有圆环形负重铅块,在负重铅块外表面对称分布安装钕磁铁块组,在机壳的内壁面同样对称分布安装钕磁铁块组,并与负重铅块外表面的钕磁铁块组同极相向：分布在负重铅块外表面的每组钕磁铁块构成微小倾斜角度锯齿形,分布在机壳的内壁面的每组钕磁铁块也构成微小倾斜角度锯齿形,但锯齿方向相反:在机壳的内壁面对称分布每组钕磁铁块的前头设有一块极性相反的钕磁铁块,可与飞轮负重铅块外表面的钕磁铁相吸。本发明提供了一种结构简单、方便实用、成本低廉、节能增效的惯性动力发生器。(The invention relates to a power device of a generator and related mechanical equipment, in particular to a magnetic kinetic energy gravity inertia generator. The outer surface of the flywheel is provided with a circular load lead block, neodymium magnet block groups are symmetrically distributed and mounted on the outer surface of the load lead block, neodymium magnet block groups are also symmetrically distributed and mounted on the inner wall surface of a shell, and the neodymium magnet block groups on the outer surface of the load lead block have the same poles opposite to each other: each group of neodymium magnet blocks distributed on the outer surface of the load lead block form a zigzag shape with a small inclination angle, each group of neodymium magnet blocks distributed on the inner wall surface of the shell also form a zigzag shape with a small inclination angle, but the directions of the zigzag are opposite, wherein the neodymium magnet blocks with opposite polarities are arranged at the front ends of the neodymium magnet blocks symmetrically distributed on the inner wall surface of the shell and can attract the neodymium magnet on the outer surface of the load lead block of the flywheel. The invention provides an inertia power generator which has simple structure, low cost, energy saving and efficiency improvement, is convenient and practical.)

1. The utility model provides a magnetism kinetic energy gravity inertia generator, includes base, bearing, flywheel, casing, and the casing is fixed on the base, and the flywheel passes through the main shaft and installs in the frame of taking the bearing, its characterized in that: the outer surface of the flywheel is provided with a circular load lead block, the outer surface of the load lead block is symmetrically distributed with neodymium magnet block groups, the inner wall surface of the shell is also symmetrically distributed with the neodymium magnet block groups, and the neodymium magnet block groups on the outer surface of the load lead block have the same poles opposite.

2. The magnetic kinetic energy gravity inertia generator of claim 1, further comprising: each group of neodymium magnet blocks distributed on the outer surface of the load lead block form a zigzag shape with a small inclination angle, and each group of neodymium magnet blocks distributed on the inner wall surface of the shell also form a zigzag shape with a small inclination angle, but the directions of the zigzag are opposite.

3. The magnetic kinetic energy gravity inertia generator of claim 1 or 2, further comprising: the front ends of each group of neodymium magnet blocks symmetrically distributed on the inner wall surface of the shell are provided with neodymium magnet blocks with opposite polarities, and the neodymium magnet blocks can attract neodymium magnets on the outer surface of the flywheel load lead block in an opposite way.

Technical Field

The invention relates to a power device of a generator and related mechanical equipment, in particular to a magnetic kinetic energy gravity inertia generator.

Background

At present, a power station in China mainly uses thermal power generation as a main part, a large amount of coal resources are consumed while power generation is carried out, meanwhile, vehicles such as automobiles, ships, airplanes and the like use petroleum-enhanced fuel oil as a main fuel, a large amount of toxic and harmful gases are generated while earth resources are continuously consumed, a large amount of carbon dioxide is generated, the global temperature is warmed, various extreme weathers are frequently generated, and the earth becomes more and more unsuitable for human residence. The invention mainly utilizes the gravity of the earth to lead the gravity generated by the object and the magnetic force generated by the attraction and repulsion of the magnets to perfectly combine the two pollution-free and inexhaustible natural forces together, thereby obtaining the maximum economic benefit with the least energy loss. The invention can be used in the fields of power stations, electric automobiles, steamships, mechanical manufacturing and the like, can save energy and protect environment, reduces the use of petrochemical energy such as coal, petroleum and the like, and effectively improves the environmental problems such as global warming, air pollution and the like.

The magnetic kinetic energy gravity inertia generator amplifies input kinetic energy by utilizing gravity inertia kinetic energy generated by the high-speed rotation of the pendulum bob or the flywheel, and simultaneously pushes the pendulum bob or the flywheel to rotate at high speed by utilizing the driving force generated by the repulsion of homopolarity between magnets, thereby realizing the driving of a more powerful generator and related machinery under the premise of unchanging motive power. The magnetic kinetic energy gravity inertia generator is used in an area where the space is not limited, if the magnetic kinetic energy gravity inertia generator is used for power generation of a power station, a pendulum bob mode can be adopted, and the swing arm is utilized to increase the rotation radius of the pendulum bob, so that the gravity inertia generator obtains larger inertia kinetic energy. The magnetic kinetic energy gravity inertia generator is used in a place with limited space area, and if the magnetic kinetic energy gravity inertia generator is used for an electric automobile, a flywheel mode can be adopted, and the gravity inertia generator can obtain larger inertia kinetic energy by accelerating the rotating speed of a flywheel.

The invention aims to provide a magnetic kinetic energy gravity inertia generator which is simple in structure, convenient, practical, low in cost, energy-saving and efficiency-increasing.

The invention is solved by the following technical scheme: the magnetic bearing comprises a base, a bearing, a flywheel and a casing, wherein the casing is fixed on the base, the flywheel is installed on a rack with the bearing through a main shaft, a ring-shaped load-bearing lead block is installed on the outer surface of the flywheel, neodymium magnet block groups are symmetrically distributed and installed on the outer surface of the load-bearing lead block, and the neodymium magnet block groups are also symmetrically distributed and installed on the inner wall surface of the casing and are opposite to the same poles of the neodymium magnet block groups on the outer surface of the load-bearing lead block.

Furthermore, each group of neodymium magnet blocks distributed on the outer surface of the load lead block form a zigzag shape with a slight inclination angle, and each group of neodymium magnet blocks distributed on the inner wall surface of the casing also form a zigzag shape with a slight inclination angle, but the directions of the zigzag shapes are opposite.

Furthermore, neodymium magnet blocks with opposite polarities are arranged at the front ends of each group of neodymium magnet blocks symmetrically distributed on the inner wall surface of the shell and can attract neodymium magnets on the outer surface of the flywheel load lead block.

The invention utilizes the gravity inertia kinetic energy generated by the high-speed rotation of the pendulum bob or the flywheel to amplify the input kinetic energy, and simultaneously utilizes the driving force generated by the repulsion of like poles between the magnets to push the pendulum bob or the flywheel to rotate at a high speed, thereby realizing the beneficial effects of driving a generator with higher power and related machinery to work to reduce the cost, save energy and improve the efficiency on the premise of keeping the original motive power unchanged.

Drawings

Fig. 1 is a schematic diagram of the overall structure (pendulum bob mode) of a magnetic kinetic energy gravity inertia generator according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of the internal structure (flywheel mode) of the magnetic kinetic energy gravity inertia generator according to the embodiment of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings of the embodiments.

As shown in fig. 1 and 2, the embodiment includes a base 1, bearings 2 and 3, a flywheel 4, and a casing 5, where the casing 5 is fixed on the base 1, the flywheel 4 is mounted on racks 7a and 7b with the bearings 2 and 3 through a main shaft 6, a circular ring-shaped load lead block 8 is mounted on an outer surface of the flywheel 4, neodymium magnet block groups 9 are symmetrically distributed and mounted on an outer surface of the load lead block 8, and neodymium magnet block groups 10 having the same polarity as that of the neodymium magnet block groups 9 on the outer surface of the load lead block 8 are symmetrically distributed and mounted on an inner wall surface of the casing 5.

Each group of neodymium magnet blocks 9 distributed on the outer surface of the load lead block 8 form a zigzag shape with a slight inclination angle, and each group of neodymium magnet blocks 10 distributed on the inner wall surface of the casing also form a zigzag shape with a slight inclination angle, but the directions of the zigzag shapes are opposite.

The front ends of each group of neodymium magnet blocks 10 symmetrically distributed on the inner wall surface of the shell are provided with neodymium magnet blocks 11 with opposite polarities.

The outer surface of the flywheel 4 is provided with a circular ring lead block 8 to increase the weight of the flywheel 4, so that the flywheel 4 can generate inertia kinetic energy when rotating at high speed, the surface of the flywheel lead block 8 is symmetrically provided with a plurality of groups of neodymium magnets 9 in proportion, the number of the mounted neodymium magnets is determined according to the size of the flywheel 4, the flywheel can be provided with a plurality of groups of neodymium magnets when being large, but enough space must be kept between every two groups of neodymium magnets, and the neodymium magnets in each group are symmetrically and equidistantly arranged. The neodymium magnet group 9 on the surface of the flywheel lead block 8 is arranged at a very small inclination angle, and the direction of the magnetic field is changed through the inclination angle of the neodymium magnet group, so that the flywheel 4 is pushed to move forwards. Neodymium magnets 10 are also installed on the inner wall surface of the shell 5 in proportion, one to two neodymium magnet groups 10 on the shell 5 are more than neodymium magnet groups 9 on the flywheel, each neodymium magnet group is more than one neodymium magnet group on the flywheel, and meanwhile, the gap between every two neodymium magnets on the shell 5 is slightly larger than the length of each neodymium magnet group on the flywheel, so that each neodymium magnet group 9 on the flywheel has a switching process when rotating. A neodymium magnet 11 with a small volume is arranged in front of each neodymium magnet group 10 on the casing 5, the neodymium magnet is only half or one third of other neodymium magnets, the neodymium magnet is installed in opposite poles attraction with the neodymium magnet 9 on the flywheel, the effect of the neodymium magnet is that because the attraction force and the repulsive force of the neodymium magnets are large, strong repulsive force can be generated when the neodymium magnet groups 9 on the flywheel and the neodymium magnet groups 10 on the casing 5 meet, the repulsive force can bring large resistance to the rotation of the flywheel, the repulsive force can be converted into attractive force by installing the neodymium magnet 11, and the flywheel can rotate more smoothly. Each group of neodymium magnets 10 on the casing 5 and the neodymium magnets 9 on the flywheel are installed in a manner that like poles repel each other, the neodymium magnets are installed at a very small inclination angle with the neodymium magnets installed on the surface of the flywheel, the inclination angles of the neodymium magnets are opposite to those of the neodymium magnets installed on the surface of the flywheel, the neodymium magnets and the neodymium magnets are in a parallel state relatively, the neodymium magnets 9 on the surface of the flywheel are pushed to move forwards by using repulsive force generated by the neodymium magnets 10 on the casing 5, and the moving direction of a magnetic field is changed by using the inclined installation angles of the neodymium magnets on the two surfaces, so that a continuous driving force is provided for the flywheel. The neodymium magnets installed on the flywheel are fixed, the neodymium magnets 10 and 11 installed on the casing 5 are movable, when the gravity inertia generator does not work, the neodymium magnets 10 and 11 can be retracted into the casing 5 through mechanical control, the distance between the neodymium magnets on the two sides is pulled, different poles of the neodymium magnets repel each other, and meanwhile, the rotating speed of the flywheel can be mastered through controlling the inclination angle of the neodymium magnets on the casing 5 and the distance between the neodymium magnets on the surface of the flywheel, and the kinetic energy required by the flywheel can be obtained.

The invention works in this way, first the external power drives the flywheel 4 to rotate at a high speed through the main shaft 6, at this time the foremost small neodymium magnet half 11 of each neodymium magnet group on the chassis 5 attracts the neodymium magnet 9 on the flywheel to move forward, when two magnets meet, because the mass of the flywheel is very heavy, will produce the forward inertia in the course of rotating, at this moment the flywheel will not stop because two neodymium magnets attract each other, but on the contrary because the inertia will make two magnets separate very fast, the flywheel continues to rotate forward, at this moment neodymium magnet group 9 on the flywheel breaks away from the attraction of the first small neodymium magnet half 11 on the chassis 5 and enters the repelling zone of the neodymium magnet 10 behind, because the attraction and repulsion that produce between the magnet are equal, the repulsion that the neodymium magnet group 10 produces will be far greater than the attraction that the small neodymium magnet half 11 produces, impel the flywheel to accelerate forward movement, when the neodymium magnet 9 on the flywheel passes through the neodymium magnet 10 on the chassis 5 completely, immediately, the magnet is attracted to the other neodymium magnet on the casing 5 and then repelled, and the process is repeated. Meanwhile, other neodymium magnets 9 on the flywheel also work in a reciprocating mode, so that the flywheel 4 can rotate at a high speed only by means of the gravity inertia of the flywheel and the repulsive force between the neodymium magnets, and the power is transmitted to mechanical equipment such as a generator through the main shaft 6. Meanwhile, a plurality of gravity inertia generators can be connected in series for use through the main shaft 6 in order to improve the working efficiency, so that the electric equipment with higher power can be driven to work.

The embodiment utilizes the principle that like poles repel each other among magnets to push the flywheel to rotate, and is also the core technology of the invention, the scheme does not consume electric energy at all, the energy conversion rate is higher, the inertia kinetic energy generated by gravity and the characteristics of opposite poles attract and like poles repel each other among the magnets are utilized, two natural forces bestowed by the earth are perfectly combined together, and the maximum economic benefit is obtained by the least energy consumption. The invention can be used in the fields of power stations, electric automobiles, steamships, mechanical manufacturing and the like, can save energy and protect environment, reduces the use of petrochemical energy such as coal, petroleum and the like, and effectively improves the environmental problems such as global warming, air pollution and the like.