CA2486679A1

CA2486679A1 - Apparatus for self-generating a driving force

Info

Publication number: CA2486679A1
Application number: CA002486679A
Authority: CA
Inventors: Show Jong Yeh; Yu Ta Tu
Original assignee: Individual
Current assignee: Sunyen Co Ltd
Priority date: 2002-05-23
Filing date: 2002-07-19
Publication date: 2003-12-18
Also published as: JP2005527177A; DE10297742T5; AU2002341543A1; CN101895169A; GB2405749A; GB2405749B; KR20050010831A; GB0428322D0; WO2003105326A1; RU2004137670A; CN1630976A; KR100938197B1

Abstract

This invention relates to an apparatus for self-generating a driving force, which employs an electromotive force generated on a coil by an electromagnet ic induction, in combination with a mechanical driving device to drive a rotati ng shaft (A) of the device, such that the rotating shaft can rotate continuousl y without any external power after an initial activation. The apparatus comprises a mechanical driving device, at least two coils (21, 22), wherein the mechanical driving device includes arms (11, 12) in attachment with magnetic bodies (31, 32), thereby an opposite electromotive force can be generated based on an electromagnetic induction to apply a forte on the magnetic bodies for a rotation of the shaft.

Description

APPARATUS FOR SELF~GE1~.ERATING A ~?RIVIN~
FORCE
BACKGROUND OF THE I~IVENfiION
FIELD OF THE INVENTION
The invention relates to an apparatus for self generating a driving force, ~ and more particularly to ari ~.pparati~s for using an electromotive force, which is generated on a coil by an electromagnetic ind>,~ctior~, in eombinatiori with a mechanical driving device to drive a rofi~ting shaft of the device.
DI~SCRIPTION OF THE RELATED ART
Typically, a driving f6ree gene~at~ng apparatus employs energy-, such as fuel, thern~~.l plover, hydraulic power, wind force, solar energy, or nuclear e~iergy to generate a driving force in order to drive a rotating s~af~ of ~ me~cl~anical driving device.
However, in the circumslar~ces that these energies have become inereasi~gly exhausted and pollution pf most of these eneirgies have been inevitably increased, it i$ necessary to develop an apparatus capable of self generating a driving force with a low cost arid extreme simplicity as well to get rid of the problems, such as the pollution of nuclear or any inco~v~nience affected by the weather on solar energy, etc.
Conventionally, in accordance with faraday's hlectromagnetic Induction Law, when magnetic induction comes into effect on a conductor, an electro~ative force fan be induced. The induced electromotive force is generally proportional to a relative moving speed between a m.~.gnetic source and a conductor. Further, it is known that according to the L~n~'s Law, while a relative moving speed between a magnetic source and a conductor changes such that magnetic flux vdries to ge~ie~ate an electromotive force, a new magnetic field can be generated and a nevv force can also be generated against that e~~e~ctromotive force- generated by ~ preceding magnetic field.
Fig. 1 is a schematic drawing, showing an electromagnetic induction theory according to the Faraday's Law and tl~e Len's Law. As shown in Fig. 1, when a magnetic body 1 moves in relation to a coil 2 at a seed v ~.nd effects on the coil 2, -an induced electromotive force and thus an induced current I can be generated ~y the coil ~ in accordance with the Faraday's Law, since the coil 2 transverses across a. magnetic line of force such that a magnetic fie~c~ induced on the coil 2 varies, in 'that the induced current I is proportional to a magnetic field stre~gxh and the relative moving speed v. Also, according to the Lenz's.
Law, the induced electromotive force is possible to allow the coil ~ to gene~ratE an opposite force F against a variation of the magnetic field of the magnetic body 1, in that the opposite ford F (i.e., the opposite electromotive foxce) ~s obtained by multiplying a magnetic flux density B of the magnetic body 1 writh the induced. current I and totat length L of the coil 2, i,e., F = k - B - I - L (k is a constant) , therEby, tie Apposite force F can then sequentially induce another force F'.
Therefore, provided that 'the opposite force F (andfor the f~rce F') can be ~eff~e~ively employed in combination with a mechanical driving device to drive a rotating shaft- thereof, and force F or F' is much greater thajn 'the net friction force, the rotting shaft e~.n be rotated continuously without any e~ctern~.l power after initially activating the rotating shaft by a sort period of the external force so that kinetic enexgy can be produced.
SU1VIM~.IIY OF TIDE INVENTION
Therefore, an object of the invention is to provide an apparatus for self generating a diving force, which can use an electromotive force generated on a coil by an electromagnetic ilfduction Iogether with a mechanical driving device to dtiye a rotating shaft of that dev~ca so as to generate an energy without any pollution and any inconvenience affected by the weather.
In order to aehiev~ the above object, according to an aspect of the invention, there is provided with an apparatus for self generating a driving force, comprising:
a mechanical driving device, having a rotating shaft, the rotating shaft including at Least one set of two arms, the two arrr~s arranged at a predetermined angle with respect to each other, an end of each of the arms attached with at least one magnetic body; and at least one set of two coils, arranged stationary at the preti~termined an~~la, ~~e Opening ~f each coif perpendicularly faci3~g the rotating 'shaft, wherein winding terminals at the one opening of each set of cods are elect~'ically connected with e~.c~ other through a switching element arranged to turn on when a current is induced in one of coils to thereby short a circuit through the other of coils and generate an electromotive force and produQe a repulsive force between other coil and a corresponding magnetic body, other winding terminals at.th~ other opening of each seat of cons are -elect~cally connected together directly, wherein a polarit-y of each magnetic body is arranged such that a repulsive force is present between each of the magnetic body and a corresponding coil.
Further, according to the above aspept, the m~ag~etic body includes a perm~.nent magnet.
Further, according to the above aspect, the coil includes a permeable lriaterial, an air core, and\or the lik,~e.
Further, aecarding~ tp the abpve aspect, the arm is welded on the rotating shaft perpendicularly and/or in a predetermined angle.
Other aspects and advantages of the present invention will become apparent from the following detailed description, taken in conjunction with the accompanying drawings, illustrated by way of example of the principles of the invention.
$R~EF DESCRIPTION OF THE IIRAW~NGS
The invention dill present in detail the following ~de~cription of a preferred exemplary example with reference to 'the following drawings, wherein:
1~'ig. 1 is a schematic drawing showing an electromagnetic induction theory according to the Faraday's Law and the Lenz's Law;
Fig. 2 is a structural schematic drawing, showing an apparatus for self generating a driving force in acG-orc~ance with a pref~r~ed embodiment of the invention; and Fig. 3 is a schematic drawing showing a general circuit of an apparatus for self generating a driving force according to tl~e invention.
DETAILED DESCRIPTION OF THE INVENTION
With reference tQ Fig. 2, Fig. 2 is a structpral schematic drawing showing an apparatus for self generating a driving force in accordance with the invention. As sown in Fig. 2, s accordipg to the. invention, an apparatus for self generating a driving force comprises a mechankcal driving device. Tie mechanical driving device includes a rotating shaft A, on v~hich at least one set of two arms 1 l, 12 are included: arms 11 and 12 m~.y b.e a single member or may be separately connected to the shaft. The quantity of arms 11, 12 are not limited as illustrated in the drawing. Preferably, the quantity of arms 11, 12 can be a plurality of arms, which are symme~ric.a.lly arx~.nge~i at a predetermined angle otl the shat A, respectively. The army 11, ~12 can ~e preferably welded on the rotating shafx A
perpendicularly and/or in a pre~3etermined angle. One end of peach of the arms has a magnetic body 31, 32 attached.
~r~ferably, the magnetic body 31, 32 inolude$ a permanent magnetic material. Each of 'the magnetic bodies 31, 32 has a game direction of a polarity, which is arranged in a dir~ation Qf the corresponding arm 1 l, 12. The apparatus further includes at least one set of two coils 21, 22, which are arranged to be statipn~.ry at the same angle as the predetermined angle for the arms 11, 12. In this embodiment, the quantity ;of the coils is in correspondence ~vit~ that of the arms. However, the quantity of the coils i~ not restrictive as illustrated In the drawing. One openihg of each coil 2~, 2~ faces perpendicularly to the shaft A.
As shown in the figure, two wi~dix~g terminals b, d looated respectively at the opening of each coil 21, 22 are connected to each other through a switching element, such as a transistor !Q 1, and other two winding terminals a, c located at the other opening of each coil 21, 22 are electrically connected directly.
Fig. 3 showing a snore general circuit. Switching element ~ 0 may be a transistor, a relay, an optical coupIi~g device, a hall.
effect device, or any other switching element.
The follovvin.g description will illustrate the operation of the ap~ar~.tus according td the litesent invention. As shown in Fig. 2, w~.en the magnetic body 32 passes by an opening of coil 22, the coil 22 can be induced an electromotive ford E1. Meanwhile, an electromotive force E2 can also be induced on tie coil 21 by tl~e ether magnetic body 31 that induces a current I1. The in~.uced current I1 flows through a current limiter RZ and turns on the transistor Q1. Since the transistor Ql turns o~, the current I2 flows through the coil 22. Then, the coil 22 may be fae~litated to generate an opposite force (i.e., ~n oRposite electromotive force) so as to drive the army moving. forward the direction S. Thus, the rotating shaft A can be driven to rotate.
Therefbre, the rotating shaft A may rotate in a predetermined direCti~on continuously after the initial activation pf the shaft by means of applying a short period of the external fb~'ce, such as by a manual force, without any external power.
Coils 21 and 2~ may be air core or may have Bores made of a magnetically permeable material.
Having described the preferred exemplary example of the invention, however, which are not intended to ~e the limit of the invention. It is noted that modifications and v~riat~ons cax~ ~e made by persons skilled in the att in light of the above teaching.

~t is therefore to be understood that various. changes equiv~lences and modifications may be made in the particular example of the invention without departing from the scope and spirit of the invention as outlitled by the appended claims.
LIS'~ O~ ftE~"ERENCE NU1V~~~ALS
1 Magnet 2 Col 3 Galvanometer 11, 12 Lick 21, ~,2 Coil 30, Q1 Switching Element 31, 32 Magnetic Body a, b., Ter~ii~al of Coi-1 c, d R, R2 Current Limner A .l~otatii~g Shaft S Rotation Direction I, I1., Induced Current E1, E2 Electromotive Force y Speed F, ~' Force B Magnetic Flux Density L Total Length of Coil L1, L2 Coil s

Claims

WHAT IS CLAIMED IS:

1. An apparatus for self-generating a driving force, comprising:
a mechanical driving device, having a rotating shaft, the rotating shaft including at least one set of two arms, said two arms arranged at a predetermined angle with each other, an end of each of said arms attached with at least one magnetic body;
and at least one set of two coils, arranged stationary in said predetermined angle, one opening of each coil perpendicularly facing said rotating shaft, wherein winding terminals at said one opening of each said set of said coils are electrically connected with each other through a switching element arranged to turn on when a current is induced in one of said coils to thereby short a circuit through the other of said coils and generate an electromotive force and produce a repulsive force between said otter coil and a corresponding magnetic body, other winding terminals at the other opening of each said set of said coils are electrically connected together directly, wherein a polarity of each magnetic body is arranged such that a repulsive force is present between each of said magnetic body and a corresponding coil.

2. The apparatus according to claim 1, wherein said magnetic body includes a permanent magnet.

3. The apparatus according to claim 1, wherein said coil contains a permeable material or an air core.

4. The apparatus according to claim 1, wherein said arms are welded on said rotating shaft perpendicularly and/or in a predetermined angle.

5. The apparatus according to claim 1, wherein said switching element includes transistor, relay, optical coupling device, or Hall effect device.