CN110890828A - Magnetic power machine - Google Patents

Abstract

The magnetic power machine realizes lasting operation and work application by a mechanical means by utilizing the principle that like poles repel each other under the action of external force of a magnet. The method is mainly characterized in that a gear column is arranged on a rotor spindle, the gear column is transmitted to a stator through gear transmission and speed change, the rotor and the stator rotate simultaneously under the mutual repulsion action of magnets on the rotor and the stator, the gear tooth thickness is used as a scale to set the period from one section of the optimal position of two adjacent magnets on each stator, which acts on the rotor, to the next section of the optimal position, the period is divided into equal parts to determine the accurate position of each stator, which acts on the rotor, as the starting point of each stator, which acts on the rotor, so that each stator is obtained, the optimal position forms a periodic cycle and acts on the circumference of the rotor in turn.

Description

Magnetic power machine

The technical field is as follows:

the magnetic power machine is a new type of energy power equipment to be developed.

Secondly, the technical background is as follows:

as can be seen in fig. 4, the magnets A, B have like poles facing each other to remove the restraining force plus the external force F_{Outer cover}Bringing A, B closer together, magnets A, B repel each other. F_ARepel + F_{B repellent}＝F_{Outer cover}Push A to B continuously. When the external force F is larger than the restriction force of A, B, the A is pushed to the B to push the B to walk continuously, and when the restriction force is applied to the B, the F is used_{Outer cover}The phenomenon that the pushing A and the approaching B are pushed back by the opposite repulsive force is a small experiment which is commonly done by people, but an important factor in the phenomenon is not noticed, and the phenomenon can be seen because an external force F is applied_{Outer cover}The test shows that without the external force, we can not see the external force, so that I think that the expression of 'homopolar repulsion' is not exact, and the 'homopolar repulsion under the action of the external force', and an external force must be applied to obtain the repulsion of the homopolar repulsion. When two magnets A, B are used to make the same poles face each other, they move in parallel by the repulsion of the same poles, when they are separated from the magnetic face of the opposite side, they are attracted by the opposite magnetic field, if the repulsion force of the same poles of two magnets is obtained again, they enter the opposite magnetic field and are repelledThe resistance force needs to be pushed through a critical point to be converted into repulsive thrust.

The magnets are naturally arranged into a straight line, except that the original two-pole magnetic force is increased, a new common magnetic field is formed around the straight line, then a circle or a square is artificially formed by the magnets, a new magnetic field is formed around the circle or the square, and the fine properties are basic properties of the magnets, the magnets do work by utilizing homopolar repulsion, the existence of various adverse factors must be faced, the homopolar repulsion cannot be successfully utilized to do work, and the adverse factors cannot be avoided in the key point.

Thirdly, the invention content:

the magnetic power machine mainly utilizes the characteristics that the repulsion force of like poles repelling each other of the magnets under the action of external force is in rotating fit with the space position and the stress angle through a mechanical means, skillfully utilizes the defects, and realizes lasting operation and work application.

The machine body mainly adopts aluminum alloy materials, and the shaft parts adopt A₃The machine body is composed of three parts of an outer machine shell, a left machine cover, a right machine cover, a screw support, a rotor and a stator. The rotor is as shown in figure 1 and A-A main shaft,3a rotor, a plurality of rotor blades and a plurality of rotor blades,26a magnet, a magnetic body,4a gear column, a gear wheel column,2the outer edge of the wheel disc-shaped rotor is inlaid with a magnet and a gear column, the wheel disc-shaped rotor and the main shaft are fixed into a whole through a mace, and the wheel disc-shaped rotor is supported and fixed on the left machine cover and the right machine cover through a bearing 2. The stator comprises a wheel disc body and a supporting body, wherein six outer edges of the wheel disc body are embedded with magnets, as shown in figures 1 and A-A21，23And a transmission gear16，18，20Are integrated and fixed on 4 sliding shafts12Upper, sliding shaft and supporting plate14Six wheel disc bodies of stator are connected with supporting plate and screw rod25The gear column on the rotor spindle is combined with the teeth of the stator transmission gear for driving, can rotate with the rotor at the same time at the speed of less than three times of the rotor, is supported by 4 sliding shafts and can be pushed in or withdrawn by rotating a screw.

The gear transmission is shown in figure 2 and B-B, three groups of gears which are equally divided by 120 degrees are simultaneously meshed with a rotor spindle gear column and can be axially arrangedSliding, three-pole speed changing and steering to the six outermost gears, which are respectively connected with six wheel disc bodies with magnets embedded on the outer edges and connected with the wheel disc bodies through shafts23The left and right gear supporting seats are fixed and connected by positioning bolts, as shown in figure 2.

In the structural design, the rotor magnetic wheel disc and the 6 stator magnetic wheel discs, magnets embedded on the outer edge can repel like poles and can push the rotor to rotate, and the stator can continuously rotate under the action of power drive of gear transmission and the repelling of the like poles of the rotor magnets. Under the state that rotor and stator rotate simultaneously, can cut the harmful magnetic field between the two-wheeled, can break probably balanced magnetic field, and the repulsion that homopolar repulsion between the two-wheeled acted on the rotor can drive the rotor and rotate, when acting on the stator, because the speed difference between rotor and the stator, this repulsion is born by 4 sliding shafts of fixed stator and produces the reaction force to the rotor.

The mutual positions of the rotor disk and the stator disk are designed as shown in figures 3 and C-C, when the screw rod is rotated15When the stator and the rotor are pushed to start, homopolar faces of magnets embedded outside the periphery of the rotor and the stator face and exert thrust, the rotor is pushed to rotate under the action of repulsion force of homopolar repulsion, the six wheel discs serving as the stator are distributed on the outer circumferential edge of the wheel disc of the rotor in unequal intervals, the distance between the six wheel discs is 2-5mm, and a gear column on a rotor main shaft drives a gear and the stator to rotate in opposite directions.

The mutual positions of the rotor disc magnet and the stator disc magnet are shown in figure 3, because 6 stator disc magnets are synchronous with 6 gears, the gear tooth thickness is used as a scale, 6 stator disc magnet pieces are set to act on the optimal position and angle of the rotor, a cyclic process that two adjacent magnet pieces are cut into the next repelling magnetic field and come to the optimal position of the repelling through the zero-crossing point by excessively cutting the useless magnetic field is set as a period and divided into equal parts, and the exact position of each stator wheel magnet piece relative to the rotor is respectively determined to be used as the starting point of each stator acting on the rotor. Referring to fig. 3, the connecting line of the rotor and the stator is taken as a reference, the position 1 represents the exact position of the magnet sheet of the first stator wheel corresponding to the rotor, the connecting line of the second stator wheel with the No. 2 rotor and the stator is taken as a reference, the exact position of the magnet sheet of the second stator wheel corresponding to the rotor is determined, and the exact positions of the 6 magnetic wheels are determined by analogy, so that the accurate positions can be mutually matched and mutually supplemented in a circulating manner, each stator can be obtained to act on the rotor periodically at the optimal position in turn, and the permanent operation and the work are realized.

Fourthly, explanation of the attached drawings:

1. FIG. 1 shows a schematic view of a

Is a whole cross section of the whole machine as a front view.

FIG. 2

Is a partial cross-sectional view, the cut-away location can be seen in fig. 1 (fig. 2B-B).

2. FIG. 3

Is a partial cross-sectional view, the cut-away position being visible in fig. 1 (fig. 3C-C).

3. FIG. 4

The force analysis of the two magnets A, B is performed by removing the binding force and making the magnets repel each other like poles.

The fifth embodiment is as follows:

the magnets on the rotor and stator repel each other in the same polarity under the action of external force, and the rotor and stator are driven by gears to change speed. The gear tooth thickness is used as a scale, the period from the optimal position of the two adjacent magnets on each stator acting on the rotor to the optimal position of the next section is set, and the period is divided into equal parts to determine the accurate position of each stator acting on the rotor to be used as the starting point of each stator acting on the rotor. So that each stator is acted on the rotor in turn in a periodic cycle at the optimal position, and the rotor is rotated permanently to obtain power.

Claims (2)

1. A magnetic power machine features that the magnets installed to rotor and stator are used to repel each other under the action of external force, so the rotor and stator can rotate at different speeds.

2. The speed-varying motor is characterized by that under the action of external force, the magnets mounted on rotor and stator repel each other in the same polarity, and the rotor and stator are driven by means of gear to change speed. The gear tooth thickness is used as a scale, the period from the optimal position of the two adjacent magnets on each stator acting on the rotor to the optimal position of the next section is set, and the period is divided into equal parts to determine the accurate position of each stator acting on the rotor to be used as the starting point of each stator acting on the rotor. Therefore, each stator forms a periodic cycle acting on the rotor at the optimal position in turn, and the rotor is made to rotate permanently to obtain power.

Images