CN201008121Y

CN201008121Y - Magnetic induction loop magnetic circuit closed generator

Info

Publication number: CN201008121Y
Application number: CNU2005200321085U
Authority: CN
Inventors: 刘刚
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-10-10
Filing date: 2005-10-10
Publication date: 2008-01-16
Anticipated expiration: 2015-10-10

Abstract

The utility model relates to a magnetic induction loop closed circuit generator, which comprises a stator and a magnet body, wherein the stator comprises a magnetic induction loop winding which is packaged around a circular concentrating flux medium, the concentrating flux medium comprises a whole body passing through centre of the magnetic induction loop winding and the outer part of the magnetic induction loop winding communicated with each other, the communication joint is reserved with clearance or magnet medium of different property. The circular concentrating flux medium arranged on the magnetic induction loop winding of the utility model can concentrate induced current magnet field produced by the stator winding when rotating in the concentrating flux medium, which reaches the aim of preventing magnetic excluding force produced by magnetic induction loop of the magnet body rotating.

Description

Magnetic induction loop magnetic circuit closed generator

Technical field

The utility model relates to a kind of generator, specifically is a kind of magnetic induction loop magnetic circuit closed generator that can change the generator energy conversion efficiency.

Background technology

At present, known generator is to produce electric current with rotor rotation magnetic cutting or induction stator opposite pole in coil, rotor will be subjected to the obstruction that stator current produces magnetic field in rotary course, former pull-over gear will overcome these magnetic fields obstructions and obtain electric energy, and energy conversion efficiency is low.

Summary of the invention

The purpose of this utility model just provides a kind of magnetic induction loop magnetic circuit closed generator, to solve the problem that existing generator field hinders, energy conversion efficiency is lower.

The technical scheme that the utility model adopted is: comprise stator and magnet, described stator comprises the induction coil winding on the magnetic conductive media that is wrapped in annular.

Described magnetic conductive media is connected by the part outside an integral body of passing described induction coil winding center and this induction coil winding and constitutes, and it is communicated with junction and leaves the gap or be provided with magnetizing mediums of different nature.

Described induction coil winding and magnetic conductive media thereof are annular stator; Described magnet is that rotor structure is fixed in the rotating shaft, and the two ends rotational support of this rotating shaft is at the center of described stator.

Described induction coil winding and magnetic conductive media thereof are annular stator; Described magnet outer end is corresponding to induction coil winding center, and places in the fixedly chute on the magnetic conduction matter frame that slidably reciprocates, in the rotating shaft of generator cam is housed, and the outer of this cam is inner corresponding with described magnet.

Described induction coil winding is fixed on casing or the frame, and described each magnet is installed on the travelling carriage, and this sliding support is fixed on the casing, and two arms of this travelling carriage link to each other with connecting rod slider.

Described induction coil winding adopts many groups to connect and constitutes.

The annular permeable medium that the utility model is provided with on the induction coil winding, the magnetic field that induced current produced that stator winding is produced accumulates in this permeable medium in the running, has reached magnet rotation or motion and has not been subjected to the magnetic of induction coil magnetic field generation to scold the purpose of suction.

Description of drawings

Fig. 1 is induction coil winding of the present utility model and annular magnetic conductance dielectric structure schematic diagram;

Fig. 2 is the structural representation of the utility model annular permeable medium field circuit (clockwise);

Fig. 3 is the structural representation of the utility model annular permeable medium field circuit (counterclockwise);

Fig. 4 is the example structure schematic diagram of the utility model rotor magnet;

Fig. 5 is the A-A cutaway view of Fig. 4;

Fig. 6 is the example structure schematic diagram of the utility model with the cam drive magnet;

Fig. 7 is the axial cutaway view of the B-B of Fig. 6;

Fig. 8 is the example structure schematic diagram of the utility model with the connecting rod slider magnet.

Embodiment

Referring to Fig. 1～Fig. 8, topmost technical characterictic of the present utility model is to pass an annular magnetic conductive media 2 in the axle center hole of induction coil winding 1.Induction coil winding 1 can be made up of one or more coils.The square shape that the part 22 that magnetic conductive media 2 is linked to each other with exterior by the in-line part 21 of passing coil windings 1 centre bore (approximate " n " shape) constitutes is formed, and leaves the gap or is provided with magnetizing mediums of different nature in two-part connection junction.(referring to Fig. 1～Fig. 3).

Referring to Fig. 4 and Fig. 5, the coil windings 1 of this embodiment and center magnetic conductive media 2 thereof are the annular stator, and magnet 4 rotates to be rotor around central shaft 5.Described magnetic conductive media 2 and induction coil winding 1 are distributed on the periphery of described magnet 4 rotors.The magnetic line of force of magnet 4 arrives casing 6 by the magnetic conductive media 21 at stator coil winding 1 center, has got back to magnet 4 other ends again to the magnetic conductive media 21 at another coil windings 1 center again, has formed a complete magnetic field magnetic line loop.One end of central shaft 5 is connected with drive 7.

Referring to Fig. 6 and Fig. 7, the coil windings 1 of this embodiment and magnetic conductive media 2 thereof are the annular stator; Magnet 4 slidably reciprocates corresponding to winding wire group 1 center in the fixedly chute 9 (back-moving spring 41 is housed in the chute 9) on the frame 8 of magnetic conduction matter, and a plurality of magnets 4 and chute 9 are uniformly distributed along the circumference and radially are provided with.Cam 10 is housed on central shaft 5, and cam 10 rotations will magnet 4 be returned repeating motion along past chute 9, and the magnetic field that changes produces electric current in induction coil winding 1.The magnetic line of force of magnet 4 is got back to magnet 4 again by the magnetic conductive media on the center of coil windings 1, magnetic conductive media, rotating shaft 5 magnetic conductive medias and the cam 10 on the casing 6, has formed a magnetic loop.

Another embodiment of the present utility model as shown in Figure 8, coil windings 1 is fixed on casing or the frame 11, magnet 4 is fixed on the travelling carriage 12, sliding support is fixed on the casing 6, two arms of travelling carriage 12 link to each other with slide block 14 with connecting rod 13, when prime mover drags the connecting rod slider reciprocating motion, travelling carriage 12 in company with magnet 4 with linear reciprocating motion (magnet is over against answering the coil windings center), produce electric current in the induction coil 1, and the magnetic line of force of magnet 4 is got back to the magnet 4 on opposite by space nature closure.

Magnet 4 of the present utility model can have magnetic conductive media to form magnetic loop, also shouldn't magnetic conductive media and form magnetic loop by the space.Wherein:

(1), there is magnetic conductive media to form the generator of magnetic loop, center magnetic conductive media 21 magnetic fluxs of coil windings 1 are greater than the magnetic flux of two times magnet induction, make the effectively magnetic conductive media 21 by coil windings 1 center of magnet 4 magnetic powers, make simultaneously that magnetic conductive media 21 reaches magnetic saturation in the coil windings 1.

(2) no magnetic conductive media forms the generator of magnetic loop, the magnetic conductive media 21 at coil windings 1 center (selection of material and manufacturing) is less than the magnetic flux of (preferably equaling) magnet induction, and the magnetic field that induction coil winding 1 is produced is enough to magnetic conductive media is reached magnetic saturation.

Above-mentioned so-called magnetic saturation is in order to prevent the magnetic field repulsion that coil windings 1 produces or to attract and the motion of obstruction magnet 4.

In addition, the magnetoresistive film 3 that the heterogeneity magnetizing mediums in the coil windings magnetic conductive media 2 forms will be decided through experiment, prevents that leakage field from causing the coil current instability.

Order with using for the efficient that improves generator, relevant slip, pivoting friction position are necessary that adding meets application target lubricating oil, also are necessary to install air draft cooling flabellum.

Magnet 4 can be used permanent magnet, also can adopt electromagnet.When adopting electromagnet, if magnet rotation, electromagnet coils lead-in wire along the rotating shaft cabling outside casing on the second order spindle nose, casing external power source one line is by on the carbon brush contact single order spindle nose conducting ring, and another line is again by on the V-type metallic elastic compressing tablet contact second order spindle nose V-type conducting strip; If magnet does not rotate, the electromagnet coils lead-in wire is fixed the back, is directly joined by spirality conductor wire and casing external power source.

Claims

1. a magnetic induction loop magnetic circuit closed generator comprises stator and magnet, it is characterized in that: described stator comprises the induction coil winding on the magnetic conductive media that is wrapped in annular.

2. magnetic induction loop magnetic circuit closed generator according to claim 1, it is characterized in that: described magnetic conductive media is connected by the part outside an integral body of passing described induction coil winding center and this induction coil winding and constitutes, and it is communicated with junction and leaves the gap or be provided with magnetizing mediums of different nature.

3. magnetic induction loop magnetic circuit closed generator according to claim 1 is characterized in that: described induction coil winding and magnetic conductive media thereof are annular stator; Described magnet is that rotor structure is fixed in the rotating shaft, and the two ends rotational support of this rotating shaft is at the center of described stator.

4. magnetic induction loop magnetic circuit closed generator according to claim 1 is characterized in that: described induction coil winding and magnetic conductive media thereof are annular stator; Described magnet outer end is corresponding to induction coil winding center, and places in the fixedly chute on the magnetic conduction matter frame that slidably reciprocates, in the rotating shaft of generator cam is housed, and the outer of this cam is inner corresponding with described magnet.

5. magnetic induction loop magnetic circuit closed generator according to claim 1, it is characterized in that: described induction coil winding is fixed on casing or the frame, described each magnet is installed on the travelling carriage, this sliding support is fixed on the casing, and two arms of this travelling carriage link to each other with connecting rod slider.

6. according to any one described magnetic induction loop magnetic circuit closed generator of claim 1～5, it is characterized in that: described induction coil winding adopts many groups to connect and constitutes.