CN1088719A - The sub-magnetic driving equipment of magnetically conducting differential (commentaries on classics) - Google Patents

Abstract

The sub-magnetic driving equipment of magnetically conducting differential of the present invention (commentaries on classics), it comprises stator and magnetic force mover of being made by permanent kicker magnet that a permanent kicker magnet is made, between the two ends utmost point of stator and magnetic force mover, keep certain interval, be provided with between the gap one movable that make by non-magnet material and make two extreme between sheet magnetically conducting differential (commentariess on classics) that changes of magnetic line of force intensity, it is corresponding away from or/and near the actuation movement of stator that the variation of magnetic field intensity is made the magnetic force mover.

Description

The sub-magnetic driving equipment of magnetically conducting differential (commentaries on classics)

The present invention relates to a kind of magnetic driving equipment, comprise the member that constitutes by permanent magnet.

Mention magnetic driving equipment, people are easy to expect electromagnetic actuator device.But this drive unit, the electric current of the corresponding energy of necessary input, thus efficient is subjected to certain limitation.Simultaneously, people also are devoted to work that the development of potential in the permanent magnet is utilized, that is various magnetic force perpetual motion machine, but since its violate the philosophy of the conservation of energy and all fail.

For this reason, task of the present invention is to create a kind of new permanently magnetic energy magnetic driving equipment, it can export at least a kind of away from or the actuation movement of direction of closing, the driving of output can be only relevant with the position between the magnetic member with the size of permanently magnetic energy.Thereby it is simple in structure, and is easy to make, for the development and use permanently magnetic energy has been opened up a new technology world.

Above-mentioned task, the present invention solves with following measure: the relatively-stationary stator in position that at least one is made of permanent magnet is set, it has two magnetic poles (N and the S utmost point), also has a magnetic force mover that constitutes by magnetic material, but being relative stator, this magnetic force mover is placed on the maintaining body that a nonmagnetic substance makes with doing relative motion, at least leave certain interval between magnetic pole of the stator and magnetic force mover magnetic pole, its sheet part of a sheet magnetically conducting differential (commentaries on classics) also is set moves in above-mentioned gap, so that the suffered magnetic force of magnetic force mover changes, thereby cause the magnetic force mover do away from or near the motion of stator, and then output actuation movement.

A preferred version of the present invention is, the magnetic pole end face of stator and magnetic force mover is smooth, a device for limiting that guarantees magnetic pole gap is set on the support of magnetic force mover near an end of stator, the sheet of magnetically conducting differential rotor part by can by the magnetic line of force by but with magnetic field interactional material not to take place make, as superconductor etc.

Another preferred version of the present invention is, the sheet of magnetically conducting differential (commentaries on classics) partly is a disk, one and the corresponding to perforate of magnetic pole profile are set on it at least, this magnetic conduction difference disk is placed in the rotating shaft, when a certain corner, the perforate on the sheet disk just in time and aim between relative the two poles of the earth of stator and magnetic force mover.

Another preferred version of the present invention is, maintaining body is a tube structure that the magnetic force mover is back and forth slided betwixt, and itself and stator are that relative fixed is settled, and is equipped with back-moving spring at the magnetic force mover away from an end of stator.

Another preferred version of the present invention is, the magnetic force mover is connected on the bent axle by toggle, and bent axle connects an inertial flywheel again, with regard to exportable rotational motion.

Below, describe the present invention in detail by a specific embodiment in the accompanying drawing.

Fig. 1 is the sub-magnetic driving equipment schematic diagram of magnetically conducting differential of the present invention,

Referring to Fig. 1, wherein number the stator that 1 expression is made of permanent magnet, it is fixed on the common frame, the magnetic force mover that numbering 2 expressions are made of magnetic material, it is to be placed in slidably in the cylindrical shell maintaining body, maintaining body is made by nonmagnetic substance, thereby magneticaction does not take place in magnetic force mover 2 and maintaining body, also has a limit body that limits gap between magnetic force mover and the stator termination, (not shown), moving (commentaries on classics) son of the numbering 3 magnetic conduction difference sheets of making for the most handy non-magnet material, when moving in its two magnetic pole gaps, the magnetic line of force is changed at stator and magnetic force mover, thereby the interactional magnetic force between stator and magnetic force mover is done corresponding the variation, so in sliding barrel, do away from (repulsion) or near the motion of (attraction) because stator is the magnetic force mover of fixing that causes, certainly, when if stator and magnetic force mover are arrangement shown in the figure, just do away from motion because of the repulsion of same polarity, can realize with technique known as required as for finishing of return movement, settle a suitable spring assembly as a end at the magnetic force mover, perhaps be connected on the bent axle of a band inertial flywheel, perhaps utilize gravity etc. by toggle.But only also exist really in actual applications need a direction and be the actuation movement of a step, as safety valve etc.The moving rotor of magnetic conduction difference sheet is made by non-magnet material, say in principle, all claim non-magnet material beyond removing magnetic material, as aluminium, copper, timber, plastics, superconductor etc., but it is by the ability of the magnetic line of force, with regard to known material, also not too has the gratifying ability of passing through by the magnetic line of force, known now, superconductor is a kind of non-magnet material and has the good ability by the magnetic line of force, because it is to the having relatively high expectations of ambient temperature, so can realize fully in the laboratory, entering the practical stage certainly also needs a period of time.But, along with disclosing of design of the present invention, will cause that more people drop into development to non-magnet material according to contradiction opinion and materialistic viewpoint, believe non-permeance but enforceable again at normal temperatures new material will be familiar with and be found by people with superconductor.Till that time, the present invention just can really demonstrate the huge ability of its inherence.Yet, also must not deny the practicality that the present invention program is present thus, because, although section magnetic property of present non-magnet material is not high, the basic principle that the moving athletic meeting of rotor between stator and magnetic force mover of magnetic conduction difference sheet causes the intensity of field of magnetic forece to change thereupon but this must not deny, so as long as field of magnetic forece changes, magnetic mover suffered magnetic force in magnetic field also just changes, thereby actuating force is an objective reality.Described magnetic conduction difference sheet is moved (car) son, it in this enforcement a sheet disc structure, it is placed in the rotating shaft 4, the sheet disk rotates relative to magnetic pole at two of stator and magnetic force mover, described two magnetic poles are preferably smooth, and it is consistent with the magnetic pole profile phase to make a through hole on disk, when at a certain corner, through hole on the sheet disk just in time and aim between stator and the magnetic force mover two magnetic pole end faces, at this moment the magnetic line of force is just many so magnetic field intensity is big by what go, be that the suffered magnetic force of magnetic force mover is just big, on the contrary then opposite.

The power of the moving rotor of magnetic conduction difference sheet is mechanical, and is also motor-operated, and this sheet mover i.e. swing fortune fortune, also rotates.In theory, die and magneticaction does not take place in magnetic field because it is made for nonmagnetic substance, so that the energy of its rotation is very small.Changing sentence speaks, import small rotational energy, just can obtain high-intensity magneticaction energy, so do not changing under the energy situation that inputs to magnetically conducting differential rotor, just can change the magnetic kinetic force of output as long as change the magnetic force property of stator and magnetic force mover, can in the magnet thereby can fully develop; Because at present people are also more plain to the understanding of magnetic energy, so, prove also very difficultly theoretically, be that the existence of effect is irrefragable yet Practice is the sole criterion for testing truth.I according to the magnetically conducting differential rotor Design Theory generator and patent applied for early, also existing simultaneously experimental prototype is done with proof.

Explanation thus, magnetic driving equipment of the present invention, design original creation, be a kind of in theory with practice on all attainable technical scheme.And, simple in structure, easy to make, can not produce serious pollution to environment, so will be a kind of drive unit that is worthy of popularization in some occasion.

Wherein, the most handy non-magnet material of described magnetically conducting differential rotor is made, but be not explanation, definitely can not the applied magnetic material, very easily expect, though use magnetic material also can reach the effect of magnetic conduction difference, because magnetomechanical effects all will take place in it and stator and magnetic force mover, so the energy input just must increase when making the magnetically conducting differential rotor motion, so will influence the efficient of this drive unit greatly.

Drive unit of the present invention, though only lifted a specific embodiment, but those skilled in the art make multiple flexible program on basic technical scheme that the present invention discloses and operation principle basis, except the front sketched also have: with the magnetic force mover to hang the oscillating motion mode of connecting rod or bearing connecting rod, the mating plate that stator in the accompanying drawing and magnetic force mover are formed, work is made symmetrical expression with respect to the rotation axis of magnetic conduction difference rotor and is settled combination, by reciprocating motion conversion the rotatablely moving at bent axle of two cover crank linkages with the magnetic force mover; Perhaps quadruplet mating plate respective combination also can or the like.These remodeling and limit the NM any development that themes as the basis with the technology of the present invention at this because of length and all belong to the protection range of claims of the present invention.

Claims (5)

1, the sub-magnetic driving equipment of a kind of magnetically conducting differential (commentaries on classics), it is characterized in that: at least one is set is fixed on stator on the support by what permanent magnet constituted, it has two magnetic poles (N and S), also has a magnetic force mover that constitutes by magnetic material, it also has or responds to two magnetic poles (N and S), this magnetic force mover is to be placed on the maintaining body that a non-magnet material makes with stator with can doing relative motion, at least keep certain interval between magnetic pole of the stator and the magnetic force mover magnetic pole, magnetically conducting differential (commentaries on classics) of a sheet also is set, its sheet part can be moved in above-mentioned gap, so that the magnetic line of force of two interpolars changes, thus cause the magnetic force mover do away from or near the motion of stator.

2, by the described magnetic driving equipment of claim 1, it is characterized in that: the magnetic pole end face of stator and magnetic force mover is smooth, and relative the two poles of the earth are same sexes, on the close maintenance frame of stator one end of magnetic mover, a stopping means that guarantees magnetic pole gap is set, the sheet of magnetically conducting differential rotor part by can by the magnetic line of force by and with magnetic field interactional material not to take place make, as superconductor etc.

3, press the magnetic driving equipment of claim 1 or 2, it is characterized in that: the sheet of magnetically conducting differential rotor partly is a disk, at least one perforate consistent with the magnetic pole profile is set on it, this magnetic conduction difference disk is placed in the rotating shaft, when a certain corner, the perforate on the sheet disk just in time and aim between relative the two poles of the earth of stator and magnetic force mover.

4, by the magnetic driving equipment of claim 3, it is characterized in that: maintaining body is a tube structure that can allow the magnetic force mover to do betwixt and back and forth slide, and this cylindrical shell and stator are relatively-stationary, is equipped with back-moving spring at the magnetic force mover away from an end of stator.

5, by the magnetic driving equipment of claim 3, it is characterized in that: the magnetic force mover is connected on the bent axle by toggle, and bent axle connects an inertial flywheel again, with regard to exportable rotational motion.

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