WO2008055415A1

WO2008055415A1 - A magnetic force electricity generation module and the products using the module

Info

Publication number: WO2008055415A1
Application number: PCT/CN2007/003149
Authority: WO
Inventors: Huajun Sun
Original assignee: Huajun Sun
Priority date: 2006-11-06
Filing date: 2007-11-06
Publication date: 2008-05-15
Also published as: CN101001042A

Abstract

A magnetic force electricity generation module includes a pressure transmission bar (1), a cylinder (2), a relative motion permanent magnet (3), a relative stationary permanent magnet (4) and coils (5). Except the relative motion permanent magnet (3) and the relative stationary permanent magnet (4), other elements are nonmagnetic conductors. The relative motion permanent magnet (3) is fixed at the end of the pressure transmission bar (1), and is moveable inside the cylinder (2). The relative stationary permanent magnet (4) is fixed on the bottom of the cylinder (2). The coils (5) are wound outside the cylinder (2) so as to generate inductioncurrent when the relative motion permanent magnet (3) moves. The magnetic force electricity generation module is applicable in the automobile tire, the shoe bottom, the floor tile and the ship.

Description

Magnetic power generation module and product using the same

The present application relates to a power generation or electric device, and more particularly to a magnetic power generation or electric module and a product using the same. Background technique

According to the principle of electromagnetic induction, modern power generation devices are mostly generators composed of a rotor and a stator that are driven by external forces to perform circular motion, and are large in size in order to increase the amount of power generation using a large-scale industrial concentration. This causes a small amount of external force that is often generated in many lives and in nature to be completely wasted, which is not conducive to energy conservation. In fact, the magnetic induced current is generated by the change in the magnetic flux of the closed coil, and is not only generated by the circular motion of the universal generator to cut the magnetic lines of force. In an era of energy shortages, we should promote the gradual use of small energy sources, improve energy efficiency, and promote the use of non-polluting green energy sources to gradually replace non-renewable and environmentally-friendly energy sources such as gasoline. Summary of the invention

In order to save energy, make full use of various external forces in nature, and generate green energy. According to an aspect of the invention, a magnetic power generation module is proposed, which comprises: a pressure transmission rod, a cylinder block, a relative motion permanent magnet, and a relative a static permanent magnet and a coil; wherein the other components are non-magnetic conductors except for the relative moving permanent magnet and the relatively static permanent magnet; the opposite ends of the opposite moving permanent magnet and the relatively stationary permanent magnet are the same magnetic pole; the relative moving permanent magnet fixed connection At the end of the pressure transmission rod, it can move in the crucible body; the relatively static permanent magnet is fixed at the bottom of the cylinder; the coil surrounds the outside of the cylinder and is located near the moving permanent magnet; when the pressure transmission rod is subjected to an external force, Relative motion fixed on the pressure transfer rod

Inductive current is generated in the middle. According to another aspect of the present invention, there is provided a tire assembly including the magnetic power generation module, the tire assembly including a hub and a tire, the cylinder being a stepped cylindrical shape and fixed to the hub, wherein the diameter The larger step portion is located in the hub, and the smaller diameter portion passes through the hole in the hub and protrudes toward the tire. At the end of the pressure transmitting rod away from the relative moving permanent magnet, a supporting portion is connected, and the supporting portion is connected The inner surface of the tire is in contact. When the tire of the magnetic power generation module of the present invention is in contact with the ground during the rotation of the vehicle tire, the pressure transmitting rod is pressed by the gravity of the vehicle to cause the relative movement connected thereto. The permanent magnet moves toward the relatively stationary permanent magnet at the bottom of the cylinder; when the tire mounted with the magnetic power generating module portion is off the ground, the relative motion is again under the action of the magnetic repulsion between the relative moving permanent magnet and the relatively stationary permanent magnet The magnet is pushed away from the relatively stationary permanent magnet; during the above motion, the magnetic flux of the coil changes, in the coil Induction current is generated.

Further, a plurality of said magnetic power generation modules may be mounted on the above tire assembly to form a ring system which is continuously arranged and combined.

According to still another aspect of the present invention, a foot power shoe including the magnetic power generation module of the present invention includes a sole having a cavity, wherein: the plurality of magnetic power generation modules are mounted on a sole Inside the cavity, and the pressure transmitting rod protrudes to the bottom surface of the sole;

Further, the sole cavity of the foot-type power generating shoe further includes a rectifying circuit, and the output of the magnetic power generating module may be connected in series or in parallel according to design requirements, and the combination is outputted to the rectifying circuit as a power source. The rectifier circuit can be connected to a charger or a rechargeable battery or to a light-emitting element.

According to still another aspect of the present invention, a floor tile including the magnetic power generation module of the present invention is provided, the address having an inner cavity, the plurality of magnetic power generation modules being installed in a cavity of the floor tile, and the pressure transmission rod protruding upward The upper surface of the floor tile is uniformly distributed on the surface of the floor tile.

In addition, the present invention provides a use of the above-mentioned floor tile, wherein a plurality of the above-mentioned floor tiles are laid to cover the floor tiles of the M k' shape and shape, and each floor is adjusted according to the height of the sea surface from which the floor tiles are laid. The number of magnetic power generation modules in the block tiles. According to still another aspect of the present invention, a magnetic power module is provided, comprising: a pressure transmitting rod, a cylinder block, a relative moving permanent magnet, an electromagnet, and a position detecting member; except for the magnet and the other, the non-magnetic a relatively permanent magnet fixedly coupled to the end of the pressure transmitting rod for movement within the cylinder; the electromagnet is fixed to the bottom of the cylinder, and the position detecting member is mounted on the cylinder and above the position of the electromagnet; The moving permanent magnet can move along the axial direction of the cylinder in the cylinder; when the pressure transmission rod is subjected to external pressure, the relative motion permanent magnet fixed on the pressure transmission rod is pressed toward the bottom of the cylinder, close to the electromagnet, when position detection When the device detects that the relative moving permanent magnet is very close to the bottom of the cylinder, the coil of the electromagnet is energized, so that the side of the electromagnet close to the relative moving permanent magnet generates a magnetic pole that is identical to the relative moving permanent magnet, when The instantaneous repulsive force generated by the near energization is strong, and the electric power efficiency is high. Under the magnetic repulsive force, the moving permanent magnet is pushed away. The magnet moves to the top of the cylinder; when the relative moving permanent magnet is away from the electromagnet at a certain distance, the electromagnet is de-energized, so that when the relative-moving permanent magnet moves to the electromagnet again under the action of the external force, the electromagnet is energized again to generate a magnetic force. , causing the relative motion of the permanent magnet to produce repeated motion. The electric module can replace the internal combustion engine.

The magnetic power generation module and the product including the same according to the present invention, such as tires, foot-type power generation shoes and floor tiles, utilize various natural forces in daily life, avoid waste of energy, and improve energy utilization. It also replaces non-renewable and environmentally polluting energy sources such as gasoline with green energy that does not pollute the environment. Moreover, when the electric module of the present invention is operated, the instantaneous repulsive force generated by the same magnetic pole is used, and the energy utilization efficiency is improved as compared with the conventional electric motor. DRAWINGS

1 is an overall external view of a magnetic power generation module of the present invention;

Figure 2 is a cross-sectional view of the magnetic power generation module of the present invention;

; 奚 . 模等结图;

3⁄4 is a cross-sectional view of a real abortion; FIG. 5 is a cross-sectional view of a heel of another embodiment of the magnetic power generating module of the present invention;

Figure 6 is a cross section of a power generation floor tile using still another embodiment of the magnetic power generation module of the present invention. Figure

Figure 7 is a cross-sectional view showing the structure of a magnetic motor module of the present invention.

detailed description

The invention will now be described in detail in conjunction with the drawings and specific embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an external view of a magnetic power generation module of the present invention; and Fig. 2 is a cross-sectional view showing a magnetic power generation module of the present invention. As shown in Fig. 1 and Fig. 1, 1 is a pressure transmission rod, 2 is a cylinder, 3 is a relative moving permanent magnet, 4 is a relatively static permanent magnet, 5 is a coil for generating an induced current, except for magnets 3 and 4, All are non-magnetic conductors. Relatively moving permanent magnets 3, opposite ends of the stationary permanent magnets 4 are isotropic magnetic poles, which can be N poles at the same time or S poles at the same time. The relative moving permanent magnet 3 is fixedly coupled to the end of the pressure transmitting rod 1 and movable within the cylinder 2; the stationary permanent magnet 4 is fixed to the bottom of the cylinder 2, and the relative moving permanent magnet 3 and the pressure transmitting rod 1 are in the cylinder 2 The inner cylinder moves axially along the cylinder, and the coil 5 surrounds the outside of the cylinder and is located in the vicinity of the moving permanent magnet 3. When the pressure transmitting rod 1 receives an external force, the relative motion permanent magnet 3 fixed to 1 is forcibly pressed toward the bottom of the cylinder 2, when the pressure disappears, due to the opposite ends of the relative moving permanent magnet 3 and the relatively stationary permanent magnet 4 For the same magnetic pole, under the magnetic repulsion between 3 and 4, 1 and 3 will be pushed away from the bottom of the cylinder 2 to move to the top of the cylinder 1, due to the relative motion of the permanent magnet 3 and the relatively stationary permanent magnet 4. The mutual movement between the magnets 3 causes the magnetic flux passing through the coil to change, and an induced current is generated in the coil 5 to generate electric power.

3 is a cross-sectional view showing another structure of the magnetic power generation module of the present invention; it can be moved in the cylinder block (2); wherein the pressure transmission rod 1 can be mounted with a plurality of symmetric pulleys 11 so that the pressure transmission rod 1 is along the cylinder block 2. The inner surface slides.

4 is a cross-sectional view of an embodiment of a tire using the magnetic power generation module of the present invention. In Fig. 4 -, 丄; 3⁄4 force - pass the standard 丄兹导体 conductor), 1 is the cylinder. ( - non-guided), ³ is the relative motion permanent magnet, 4 is the relatively static wide body, 5 generates the induced current a cymbal, a cylindrical shape of 6 steps, a step portion having a larger diameter is located in the hub 6, and a portion having a smaller diameter of the cylinder 2 passes through a hole in the hub 6, and protrudes in the tire direction, the pressure transmitting rod 1 One end solid A relative motion permanent magnet 3 is attached to the cylinder 2, and the other end is connected with a support portion 8 which is in contact with the inner surface of the tire. When the tire of the automobile is in the process of rotation, when the tire on which the power generating module portion of the present invention is mounted contacts the ground, under the action of the gravity of the vehicle, the pressure transmitting rod 1 is pressed to move upward, that is, to the bottom of the cylinder 1 relatively static. The magnet 4 moves, as shown by the position A in FIG. 4, when the tire having the power generating module portion is off the ground, the 4 bar pressure transmitting rod is under the magnetic repulsion between the relative moving permanent magnet 3 and the relatively stationary permanent magnet 4. 1 and the relative motion permanent magnet 3 are pushed away from the cylinder, as shown by position B in FIG. During this process, the magnetic flux passing through the coil 5 changes, and an induced current is generated in the line 圏5. According to an embodiment of the present invention, a plurality of magnetic power generation modules can be mounted on one tire to form a ring system that is continuously arranged in combination to improve utilization efficiency. Further, the shape of the cylinder block 2 and the structure fixed to the hub are not limited to the embodiments herein, and those skilled in the art can make various modifications and adopt other fixing methods without departing from the invention.

The tire of the present invention can be used not only in automobiles but also in various tires such as bicycles. 5 is a cross-sectional view of a sole of a foot-type power generating shoe using another embodiment of the magnetic power generating module of the present invention; 9 is a sole of a foot-type power generating shoe in which a plurality of power generating modules of the present invention are installed in a cavity, pressure transmission The rod 1 protrudes out of the bottom surface of the sole, so that each time the foot falls and is lifted, the power generation module performs power generation, and the output of each power generation module can be connected in series or in parallel according to design requirements, and the combination is output to the rectifier circuit 10 as a power source. This results in a stable energy output that can be connected to a charger or rechargeable battery. It can also be connected to a light-emitting element.

Figure 6 is a cross-sectional view of a power generation tile using still another embodiment of the magnetic power generation module of the present invention; substantially the inverted view of Figure 5, wherein the plurality of magnetic power generation modules of the present invention are mounted in the floor tile, the pressure transmission rod 1 is upward The upper surface of the floor tile is prominently distributed on the surface of the floor tile. The floor tile is laid on the ground. When people step on it, the surface of the floor tile generates pressure fluctuations. The array of floor tiles can output considerable electric energy, which can be directly output or stored in the battery after rectification. The tiles may be laid in the shallow subsurface, the application force of the waves to generate electricity, which substantially module relative to the original _month: is necessary to preclude the use of Pi with: and shape.

brick. The magnetic power generation module of the present invention can be applied to the buffer device of each vehicle and the ship according to the height of the ground surface of the floor tile, and the magnetic power generation module of the present invention can be applied to the buffer device of each vehicle and the like, and the magnetic power generation module of the present invention can be used to replace the spring. It can also generate electricity. In particular, seagoing ships have large winds and waves, and their own weight is also large. The weight of the cargo carried on them is large. The buffered power generation is equivalent to another type of wave power generation. The total power generation is large and has a large use value.

One of the embodiments may be that the cylinder body of the magnetic power generation module of the present invention is integrally connected with the hull, and the pressure transmission rod is integrally connected with the bearing support surface carrying the cargo, so that the gravity of the cargo on the bearing surface is under the action of the cargo. And causing the magnetic power generation module to generate electricity.

Based on the principle of the same magnetic pole power generation according to the present invention, the opposite polarity can also be used as the electric motor, similar to the modification made when the conventional generator becomes electric. Figure 7 is a cross-sectional view showing the structure of a magnetic motor module according to the above principle. The magnetic electric module provided by the invention comprises a pressure transmission rod 1', a cylinder 2', a relative moving permanent magnet y, an electromagnet 4' and a position detecting member 5'; except for the magnets 3' and 4', other are non- The magnetic conductor; the relative motion permanent magnet y is fixedly connected to the end of the pressure transmitting rod 1' and movable in the cylinder V; the electromagnet 4' is fixed at the bottom of the cylinder 2', and the position detecting member is mounted on the cylinder 2' Above and above the position of the electromagnet 4', the relative moving permanent magnet 3' and the pressure transmitting rod are movable in the cylinder 2' along the axial direction of the cylinder. When the pressure transmitting rod 1' is subjected to external pressure, the relative moving permanent magnet 3' fixed to the pressure transmitting rod 1' is pressed toward the bottom of the cylinder 2', close to the electromagnet 4', when the position detecting device 5' detects When the permanent magnet 4' is relatively moved, the coil of the electromagnet 4' is energized, and the side of the electromagnet 4' which is close to the relative moving permanent magnet y generates a magnetic pole which is identical to the magnet y, and an instantaneous repulsive force is generated between them. , under the magnetic repulsive force between 3' and between, push 1' and 3' away from the electromagnet 4' to move to the top of the cylinder 2'. When the relative moving permanent magnet 3' is away from the electromagnet 4' by a certain distance, the electromagnet is de-energized. The relatively moving permanent magnet y moves to the electromagnet 4' under the action of an external force, and the electromagnet 4' is energized again to generate a magnetic force, so that the relative motion permanent magnet 3' is repeatedly moved.

In addition, the direction of the energizing current of the electromagnet ' can be selected such that it is close to the side of the relatively moving permanent magnet and produces a magnetic pole that is identical to the relative moving permanent magnet y, which may be N pole or S pole.

The drawings are intended to be illustrative, and any modifications and variations made by those skilled in the art in accordance with the teachings of the present invention are within the scope of the invention.

Claims

Claim

A magnetic power generation module, comprising: a pressure transmission rod (1), a cylinder (2), a relative moving permanent magnet (3), a relatively stationary permanent magnet (4) and a coil (5); The moving permanent magnet (3) and the relatively static permanent magnet (), the other components are non-magnetic conductors; the relative moving permanent magnets (3), the opposite ends of the stationary permanent magnets (4) are the same magnetic poles; the relative moving permanent magnets (3) fixedly connected at the end of the pressure transmission rod (1), movable in the cylinder (2); relatively static permanent magnet (4) fixed at the bottom of the cylinder (2); coil (5) surrounding the cylinder The outer part of the body is located in the vicinity of the moving permanent magnet (3); when the pressure transmitting rod (1) is subjected to an external force, the relative moving permanent magnet (3) fixed on the pressure transmitting rod (1) is forcibly pressed against the cylinder ( 2) the bottom; when the pressure disappears, the relative motion permanent magnet (3) is pushed away from the bottom of the cylinder (1) under the magnetic repulsion between the relative moving permanent magnet (3) and the relatively stationary permanent magnet (4) , moving toward the top of the cylinder ( 2 ) In the process of reciprocating motion of the moving permanent magnet (3), an inductive electric cloud is generated in the coil (5)

2. The magnetic power generation module according to claim 1, wherein: the outer surface of the pressure transmission rod (1) can be mounted with a plurality of symmetric pulleys (11) such that the pressure transmission rod (1) is along the cylinder block ( 2) The inner surface slides.

3. The magnetic power generation module according to claim 2, wherein: the opposite ends of the relatively moving permanent magnet (3) and the relatively stationary permanent magnet (4) are isotropic magnetic poles, and are both dipoles or S poles at the same time.

4. A tire set comprising the magnetic power generation module according to any one of claims 1-3

Extending, at one end of the pressure transmitting rod (1) away from the relative moving permanent magnet (3), a supporting portion (8) is connected, and the supporting portion (8) is in contact with the wheel, the inner surface of the tire, when the vehicle When the tire is in the process of rotation, when the tire of the magnetic power generation module portion of the present invention is in contact with the ground, the pressure transmission rod (1) is pressed under the force of the vehicle to make the relative moving permanent magnet connected thereto (3) Moving toward the relatively stationary permanent magnet (4) at the bottom of the cylinder (2); when the tire with the magnetic power generating module portion is off the ground, the relative moving permanent magnet (3) and the relatively stationary permanent magnet (4) The relative magnetic permanent magnet (3) is pushed away from the relatively stationary permanent magnet (4); during the above movement, the magnetic flux of the coil (5) changes, and the inductance is generated in the coil (5). Current.

The tire component according to claim 4, wherein a plurality of said magnetic power generation modules are mounted on said tire component to form an annular system in which the alignments are continuously arranged.

6. A foot-type power generating shoe comprising the magnetic power generation module according to any one of claims 1 to 3, comprising a sole (9) having an inner cavity, wherein: the plurality of magnetic power generation modules are mounted on the sole Inside the cavity, and the pressure transmitting rod (1) protrudes out of the bottom surface of the sole;

The foot-type power generating shoe according to claim 6, further comprising: a rectifying circuit (10) in the cavity of the sole, wherein the output of the magnetic power generating module can be connected in series or in parallel according to design requirements. The combination is output to the rectifier circuit (10), which may be further connected to a charger or a rechargeable battery, or to a light-emitting element.

A floor tile comprising the magnetic power generation module according to any one of claims 1 to 3, which has a cavity, wherein: the plurality of magnetic power generation modules are installed in a cavity of the floor tile, and the pressure is 3⁄4 One (1) protrudes upwards - the upper surface of the floor tile is thieves on the surface of the floor tile

A ship comprising the magnetic power generation module according to any one of claims 1 to 3, characterized in that: the cylinder (2/) is integrally connected with the hull, and the pressure transmission rod (1)/ The load bearing support surface carrying the cargo is integrally connected, so that the magnetic power generation module generates electricity under the action of the cargo gravity on the load bearing surface.

10. A magnetic electric module, comprising: a pressure transmitting rod ( ), a cylinder (2'), a relative moving permanent magnet (3') electromagnet (4'), and a position detecting component (5'); Outside the magnets (3') and (4'), the others are non-magnetic conductors; the relative-moving permanent magnets (3') are fixedly attached to the end of the pressure transmission rod (1') and can be inside the cylinder (2'). Movement; the electromagnet (4') is fixed at the bottom of the cylinder, the position detecting component is mounted on the cylinder (2') and higher than the position of the electromagnet (4'); the relative moving permanent magnet (3') is The cylinder (2') can move axially along the cylinder; when the pressure transmission rod (1 ') is subjected to external pressure, the relative moving permanent magnet (y) fixed to the pressure transmission rod (1') is pressed against the cylinder The bottom of the body ( 2 ' ) is close to the electromagnet (4'). When the position detecting device (5') detects the relative moving permanent magnet (y), the coil of the electromagnet (4') is energized to make the electromagnet ( ) near the relative motion 7:}^ The side of the iron (3') produces a magnetic pole that is identical to the relative motion of the iron (3'), at which time it is produced between them. An instantaneous repulsive force, under the magnetic repulsive force, pushes the relative motion permanent magnet (3') away from the electromagnet (4':) to move toward the top of the cylinder (2'); The magnet (3') is away from the electromagnet (4') by a certain distance, and the electromagnet is de-energized, so that when the relative-moving permanent magnet (3') is again moved to the electromagnet (4') by an external force, the electromagnet (4' The power is again applied to generate a magnetic force, so that the relative motion permanent magnet (3') continuously generates repeated motion.