CN101355324A

CN101355324A - Electrostatic motor

Info

Publication number: CN101355324A
Application number: CNA2007101378826A
Authority: CN
Inventors: 王飞
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-07-24
Filing date: 2007-07-24
Publication date: 2009-01-28

Abstract

The invention provides an electrostatic motor capable of improving the efficiency of the motor and even fulfills the aim of making the output energy larger than the input energy. The static electricity is arranged inside an electric actuator, the static electricity on each part is positioned on an object which is positioned outside each power input body and is not linked with the power input body; and for a self induction and mutual inductance transformer which does not have relative movement, the static electricity is positioned near the power input body. The electrostatic motor has the advantages that the efficiencies of the motor and the transformer are improved greatly and the method is simple and is easy to implement.

Description

Electrostatic motor

Technical field

The present invention relates to a kind of electrostatic motor, especially can improve the efficient of motor, even reach the purpose of output energy greater than intake.

Background technology

At present, the operation principle of known motor is based upon on the bases such as the law of electromagnetic induction, whole circuit law of ohm and electromagnetic force law.All theories are all finished under no static conditions again, and perhaps they think and have or not static not influence the realization of above-mentioned principle, therefore, have the research of static to be in space state.Current, under loaded situation, the motion between motor stator and rotor always forms the impedance that conforms with ratio (with load) to input current.

Summary of the invention

In order to overcome the excessive deficiency of impedance, the invention provides a kind of electrostatic motor, this electrostatic motor can not only be offset the loss of part impedance, and can make the energy of output energy greater than input.

The technical solution adopted for the present invention to solve the technical problems is: place static in electric device, everywhere static be placed on beyond each electric power input body and with electric power input body self not on the object of interlock, for the transformer of self-induction that does not have relative motion and mutual inductance, static is placed near the electric power input body.Its principle is: when electric power input body during with other parts relative motion of motor when its voltage change (or), static on other parts of motor is subjected to electromagnetic induction, produce induced electromotive force, equal the reaction force principle as can be known by active force, the power that static produces induced electromotive force is simultaneously passed to the electronics in the electric power input body, when this force direction was identical with electron motion direction in the electric power input body, the electric current of electric power input body obtained extra power, but not resistance.There is no static in the conventional motors exists, positive and negative charge on other parts of motor equates, the power that induced electromotive force produces, equal and opposite in direction, direction is opposite, therefore the electric current of electric power input body do not contributed, and only when other parts of motor produce induced current, just electric power is imported the electric current generation effect of body, and often all be resistance.In the special case of the present invention, all unimportant regardless of the extra power direction of electric current acquisition of electric power input body, but require other parts of electric power input body and motor on same axle, to slide to axial, do not relatively rotate and have.

For DC motor, because single electric power input body--rotor is only arranged, static is placed on the magnet of relative motion approximate location with it, but the supply power mode to motor should be made change, electric power input body is near magnet with when leaving magnet, the electric power input can not be arranged simultaneously, import electric power at electric power input body near magnet and one of them process of leaving magnet only.If import electric power simultaneously, the power contribution that then must have a process to cause static to give the electric current of electric power input body is negative value.

The motor of other parts import body and to(for) electric power are on same axle, and other parts of electric power input body and motor slide on same axle to axial, do not have when relatively rotating, static is placed on electric power input body to be had on other parts of relative motion, if when other parts belong to electric power input body too (dual input), static is placed on the both sides surface.

For the self-induction and the inductance transformer class of no relative motion, static is placed near the electric power input body, but will do some adjustment to the voltage waveform of input, cannot adopt the waveform of symmetry, as sine wave, should adopt asymmetric waveform, as right-angled triangle class waveform.This be since balancing waveform obtain static extra power direction on the both sides of symmetry just in time opposite.

The invention has the beneficial effects as follows, significantly improve the efficient of motor and transformer, and method simply is easy to realize.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is first embodiment schematic diagram of the present invention.

Fig. 2 is second embodiment schematic diagram of the present invention.

Fig. 3 is the 3rd an embodiment schematic diagram of the present invention.

1. magnet among the figure, 2. rotor, 3. static, 4. major axis does not 5. have the lead rotor, 6. key, 7. spring, 8. transformer.

Embodiment

In the embodiment shown in fig. 1, magnet (1) dynamically is connected with rotor (2).Magnet (1) district static electrification (3).If static (3) is negative electrical charge, input electric power when then rotor (2) is near magnet (1), rotor (2) stops to import electric power when leaving magnet (1).When rotor (2) during near magnet (1), near the static (3) the magnet (1) produces induced electromotive force, and with interior the electron stream of rotor (2) to opposite, therefore, static (3) has forward contribution to the interior electric current of rotor (2).

In embodiment illustrated in fig. 2, no lead rotor (5) is connected with major axis (4), and connecting key (6) between no lead rotor (5) and major axis (4) connects spring (7) between two no lead rotors (5), and two no lead rotor (5) surfaces have static (3).When major axis (4) drives the rotation of two no lead rotors (5), static (3) on the two no lead rotors (5) produces magnetic field because of rotating, two no lead rotors (5) are attracted each other and export energy, when major axis (4) drives two no lead rotors (5) when stopping operating, two no lead rotors (5) separate under the effect of spring (7).Because two no lead rotors (5) are given the other side's resistance in the attraction process all be to make the other side with self relative rotation take place, because the existence of key (6) is arranged, above-mentioned resistance can not take place, major axis (4) drives two no lead rotors (5) and rotates repeatedly and can be converted by potential energy and kinetic energy, thereby, there be not the impedance corresponding in the system with load.Also one in the two no lead rotors (5) can be replaced with magnet (1) in this example.

In the embodiment shown in fig. 3, the outer static (3) that has of transformer (8).When the voltage waveform of input adopts asymmetric waveform, as the right-angled triangle waveform, the interior electric current of transformer (8) changes from small to big, static (3) produces induced electromotive force, and with the interior electron stream of transformer (8) to opposite, therefore, static (3) has the forward contribution to the interior electric current of transformer (8).Because the voltage waveform of right-angled triangle waveform, too fast when voltage becomes zero, static (3) has little time to do reverse contribution to the interior electric current of transformer (8), therefore, has improved the efficient of transformer.

Claims

1. electrostatic motor, it is characterized in that: it is to place static in electric device, everywhere static be placed on beyond each electric power input body and with electric power input body self not on the object of interlock, for the transformer of self-induction that does not have relative motion and mutual inductance, static is placed near the electric power input body.

2. electrostatic motor according to claim 1 is characterized in that: for DC motor, static is placed on the magnet of relative motion approximate location with it.

3. electrostatic motor according to claim 1, it is characterized in that: the motor of other parts import body and to(for) electric power are on same axle, and other parts of electric power input body and motor slide on same axle to axial, do not have when relatively rotating, static is placed on electric power input body to be had on other parts of relative motion, if when other parts belong to electric power input body too (dual input), static is placed on the both sides surface.

4. electrostatic motor according to claim 1 is characterized in that: for the self-induction and the inductance transformer class of no relative motion, static is placed near the electric power input body.