CN203457030U

CN203457030U - Sleeve type magnet-gathering type magnetic circuit structure for permanent magnetic eddy current transmission device

Info

Publication number: CN203457030U
Application number: CN201320563054.XU
Authority: CN
Inventors: 王德喜; 张世伟; 赵克中
Original assignee: LIAOYANG TAIKE LEINUO SCIENCE & TECHNOLOGY Co Ltd
Current assignee: LIAOYANG TAIKE LEINUO SCIENCE & TECHNOLOGY Co Ltd
Priority date: 2013-09-11
Filing date: 2013-09-11
Publication date: 2014-02-26
Anticipated expiration: 2023-09-11

Abstract

The utility model provides a sleeve type magnet-gathering type magnetic circuit structure for a permanent magnetic eddy current transmission device, and belongs to the technical field of permanent magnetic transmission. Compared with the sleeve type permanent magnetic eddy current transmission device employing a discrete magnetic circuit structure, the sleeve type magnet-gathering type magnetic circuit structure for the permanent magnetic eddy current transmission device is advantageous in that the generated torque or transmitted power by unit quality permanent magnetic materials is larger or higher. The sleeve type magnet-gathering type magnetic circuit structure comprises a permanent magnet rotor as a first external rotor and an eddy current ring rotor as a first internal rotor, each first permanent magnet set comprises two to five magnets tightly contacted, the magnetization polarity directions of the magnets in the same first permanent magnet set are the same, and the magnetization polarity directions of the adjacent first permanent magnet sets are opposite. The sleeve type magnet-gathering type magnetic circuit structure comprises an eddy current ring rotor as a second external rotor and a permanent magnet rotor as a second internal rotor, each second permanent magnet set comprises two to five magnets tightly contacted, the magnetization polarity directions of the magnets in the same second permanent magnet set are the same, and the magnetization polarity directions of the adjacent second permanent magnet sets are opposite.

Description

A kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device

Technical field

The utility model belongs to permanent magnet transmission technical field, particularly a kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device.

Background technology

Permanent-magnet eddy current drive technology originates from improvement and the development of permanent-magnet synchronous drive technology.When permanent-magnet synchronous in early days sealing drive technology is applied among the equipment such as magnetic drive pump and magnetic drives blender, often run into Yin Gaowen, corrosion or overload and the frequent rough sledding such as de-coupling, therefore may cause the problems such as permanent magnet on the driven rotor in device interior destroys, demagnetization.For solving this class problem, ring of eddy technology is arisen at the historic moment, and its basic structure is exactly that the permanent magnet on driven rotor is removed, and replaces by the ring of eddy of making without nonmagnetic electrically conductive material (being generally copper).The basic functional principle of permanent-magnet eddy current drive technology is: when the magnet rotor with permanent magnet is when doing relative motion with the conductor rotor of conductor disc (ring of eddy) because of speed discrepancy, generation eddy current is responded in the magnetic field that magnet rotor produces in conductor disc, and then eddy current produces again Induced magnetic field in conductor disc, Induced magnetic field in this conductor disc and the stationary magnetic field of permanent magnet interact, just between magnet rotor and conductor rotor, produce coupling torque, thereby reach the object of transmitting motion-promotion force.The version of permanent magnetic vortex drive device mainly contains two kinds of socket type peace dish-types at present, its application form mainly comprise there is flexible startup, the permanent magnet eddy current coupling of blocking rotation, limit torque and damping vibration-isolating characteristic and by regulating air gap distance (square position type) or coupling area (socket type) to realize the permanent-magnet eddy current speed regulator that regulates driving torque function.Wherein socket type permanent-magnet eddy current speed regulator and shaft coupling, have that structure is small and exquisite, weight is light, vibrate the features such as little, permanent magnetic material efficiency is high, eddy current loss is little, especially favored.

Magnetic structure design is the key problem in technology of permanent magnetic vortex drive device, the quality of magnetic circuit performance can be directly connected to permanent magnetic vortex drive device use material number, the size of overall volume is, the quality of the height of manufacturing cost and service behaviour.So far, the magnetic structure design of socket type permanent magnetic vortex drive device (comprising speed regulator and shaft coupling) adopts discrete magnetic structure mostly, on the inner surface or outer surface of magnet rotor cylinder, along even circumferential, even numbered blocks permanent magnet is set, each piece magnet radially magnetizes, adjacent two magnet magnetic direction are contrary, and distance relatively far apart.In recent years, along with reduction and the popularization and application of the cost of high performance permanent magnetic materials, and the development of the modern technology that magnetizes, magnetic structure Optimization Theory is also developed rapidly, is improved and applied, and novel magnetic structure emerges in multitude.Modern magnetic structure design theory and method is applied to promoting of permanent-magnet eddy current drive technology, and exploitation is applicable to the novel magnetic circuit of permanent magnetic vortex drive device, to improve the service behaviour of permanent magnetic vortex drive device, imperative.

Utility model content

The problem existing for prior art, the utility model provides a kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, adopt this magnetic structure to compare with adopting the socket type permanent magnetic vortex drive device of discrete magnetic structure, the moment of torsion that unit mass (volume) permanent magnetic material can produce or transmission more powerful, still less, overall structure size is less for permanent magnetic material used, and weight is lighter, manufacturing cost is lower, and in work, the eddy current loss of autophage still less.

To achieve these goals, the utility model adopts following technical scheme:

A kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, comprise as the permanent magnet rotor of the first external rotor with as the ring of eddy rotor of the first internal rotor, permanent magnet rotor is comprised of cylindrical shape the first external rotor body and even number set the first permanent magnet group, and the first permanent magnet group is along the circumferential direction evenly arranged on the barrel inner surface of the first external rotor body, ring of eddy rotor is comprised of cylindrical the first internal rotor body and ring of eddy, ring of eddy is cirque structure, be arranged on the sidewall outer surface of the first internal rotor body, the first permanent magnet group is corresponding with ring of eddy, between permanent magnet rotor and ring of eddy rotor, leave gap, be characterized in, every group of first permanent magnet group is comprised of the magnet of two to five close contacts, it is identical that each organizes the magnet quantity that the first permanent magnet group comprises, when the first permanent magnet group is comprised of two blocks of magnet, acute angle that the magnetizing direction of described two blocks of magnet and the first external rotor body radially form all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side, when the first permanent magnet group is comprised of three blocks of magnet, the magnetizing direction of middle magnet is radially identical with the first external rotor body, acute angle that the magnetizing direction of both sides magnet and the first external rotor body radially form all≤30 °, and angle is identical, the intersection point of the magnetizing direction of both sides magnet is arranged on magnet inner side, when the first permanent magnet group is comprised of four blocks of magnet, the magnetizing direction of middle two blocks of magnet and the acute angle that the first external rotor body radially forms all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on inside magnet, the magnetizing direction of the two blocks of magnet in outside and acute angle that the first external rotor body radially forms all≤40 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on inside magnet, when the first permanent magnet group is comprised of five blocks of magnet, the magnetizing direction of middle magnet is radially identical with the first external rotor body, with the magnetizing direction of the magnet of the adjacent both sides of middle magnet and acute angle that the first external rotor body radially forms all≤20 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side, acute angle that the magnetizing direction of outermost two blocks of magnet and the first external rotor body radially form all≤50 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side, described the first external rotor body is radially the diametric(al) through the first external rotor body of corresponding magnetic blow out centre, the polar orientation that magnetizes of same group of the first permanent magnet group internal magnet is identical, the magnet of adjacent the first permanent magnet group opposite polarity directions that magnetizes, ring of eddy axial length is longer than the greatest axial length that the first permanent magnet group forms annular solid, and the external diameter of ring of eddy is less than the minimum diameter that the first permanent magnet group forms annular solid.

The cross section of the magnet of described the first permanent magnet group is tile fragment shape or trapezoidal.

The internal diameter of the annular solid that described the first permanent magnet group forms is identical, external diameter is identical, axial length is identical and end face alignment, and ring of eddy both ends of the surface exceed the first permanent magnet group both ends of the surface, and the width that exceeds both ends of the surface equates.

Close contact or leave gap between described adjacent the first permanent magnet group, fills non-magnetic isolating pad if leave in ，Ze gap, gap, and non-magnetic isolating pad adopts non-magnet material.

A kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, comprise as the ring of eddy rotor of the second external rotor with as the permanent magnet rotor of the second internal rotor, ring of eddy rotor is comprised of cylindrical shape the second external rotor body and ring of eddy, ring of eddy is cirque structure, is arranged on the barrel inner surface of the second external rotor body; Permanent magnet rotor is comprised of cylindrical the second internal rotor body and even number set the second permanent magnet group, and the second permanent magnet group is along the circumferential direction evenly arranged on the sidewall outer surface of the second internal rotor body; The second permanent magnet group is corresponding with ring of eddy, between permanent magnet rotor and ring of eddy rotor, leave gap, be characterized in, every group of second permanent magnet group is comprised of the magnet of two to five close contacts, it is identical that each organizes the magnet quantity that the second permanent magnet group comprises, when the second permanent magnet group is comprised of two blocks of magnet, the acute angle that the magnetizing direction of described two blocks of magnet and the second internal rotor body radially form all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet outside; When the second permanent magnet group is comprised of three blocks of magnet, the magnetizing direction of middle magnet is identical with the second internal rotor body radial direction, acute angle that the magnetizing direction of both sides magnet and the second internal rotor body radially form all≤30 °, and angle is identical, the intersection point of the magnetizing direction of both sides magnet is arranged on magnet outside; When the second permanent magnet group is comprised of four blocks of magnet, the magnetizing direction of middle two blocks of magnet and the acute angle that the second internal rotor body radially forms all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on outside magnet; The magnetizing direction of the two blocks of magnet in outside and acute angle that the second internal rotor body radially forms all≤40 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on outside magnet; When the second permanent magnet group is comprised of five blocks of magnet, the magnetizing direction of middle magnet is radially identical with the second internal rotor body, with the magnetizing direction of the magnet of the adjacent both sides of middle magnet and acute angle that the second internal rotor body radially forms all≤20 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet outside; Acute angle that the magnetizing direction of outermost two blocks of magnet and the second internal rotor body radially form all≤50 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet outside; Described the second internal rotor body is radially the diametric(al) through the second internal rotor body of corresponding magnetic blow out centre; The polar orientation that magnetizes of same group of the second permanent magnet group internal magnet is identical, adjacent the second permanent magnet group opposite polarity directions that magnetizes, ring of eddy axial length is longer than the greatest axial length that the second permanent magnet group forms annular solid, and the maximum outside diameter of the second permanent magnet group is less than the internal diameter of ring of eddy.

The cross section of the magnet of described the second permanent magnet group is tile fragment shape or trapezoidal.

The internal diameter of the formed annular solid of described the second permanent magnet group is identical, external diameter is identical, axial length is identical and end face alignment, and ring of eddy both ends of the surface exceed the second permanent magnet group both ends of the surface, and the width that exceeds both ends of the surface equates.

Close contact or leave gap between described adjacent the second permanent magnet group, fills non-magnetic isolating pad if leave in ，Ze gap, gap, and non-magnetic isolating pad adopts non-magnet material.

The beneficial effects of the utility model:

Adopt magnetic structure of the present utility model to compare with adopting the socket type permanent magnetic vortex drive device of discrete magnetic structure, in the situation that producing same moment of torsion or transmitting same power, permanent magnetic material used still less, overall structure size is less, weight is lighter, manufacturing cost is lower, the moment of torsion that unit mass (volume) permanent magnetic material can produce or transmission more powerful, in work, the eddy current loss of autophage still less.This has also fully reflected the direct benefit that outstanding magnetic Circuit Design can be brought.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment mono-of the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device of the present utility model;

Fig. 2 is the A-A cutaway view of Fig. 1;

Fig. 3 is the structural representation of the embodiment bis-of the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device of the present utility model;

Fig. 4 is the B-B cutaway view of Fig. 3;

Fig. 5 is the structural representation of the embodiment tri-of the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device of the present utility model;

Fig. 6 is the C-C cutaway view of Fig. 5;

Fig. 7 is the structural representation that the second permanent magnet group of the present utility model forms by two blocks of magnet;

In figure, 1--prime mover driven axle, 2--the first external rotor body, the non-magnetic isolating pad of 3--, 4--the first permanent magnet group, 5--seal isolation cover, 6--ring of eddy, 7--the first internal rotor body, 8--load rotating shaft, the one 10 ° of angle permanent magnet of 9--, the one 40 ° of angle permanent magnet of 10--, the one 0 ° of angle permanent magnet of 11--, the one 15 ° of angle permanent magnet of 12--, 13--the first 45° angle permanent magnet, 14--the second external rotor body, 15--the second permanent magnet group, 16--the second internal rotor body, the 20 ° of angle permanent magnet of 17--, the 2 25 ° of angle permanent magnet of 18--, 19--the first external rotor, 20--the first internal rotor, 21--the second external rotor, 22--the second internal rotor.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Embodiment mono-:

As shown in Figure 1 and Figure 2, a kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, comprise as the permanent magnet rotor of the first external rotor 19 with as the ring of eddy rotor of the first internal rotor 20, permanent magnet rotor is comprised of cylindrical shape the first

external rotor body

2 and 12 group of first permanent magnet group 4, and the first permanent magnet group 4 is bonded and fixed on the barrel inner surface of the first external rotor body 2 by magnetic-conductive adhesive; Ring of eddy rotor is comprised of cylindrical the first internal rotor body 7 and ring of eddy 6, ring of eddy 6 is cirque structure, by copper product, made, ring of eddy 6 is arranged on the sidewall outer surface of the first internal rotor body 7 by heat expansion connected mode, the first permanent magnet group 4 is corresponding with ring of eddy 6, between permanent magnet rotor and ring of eddy rotor, leave gap, for cartridge type seal isolation cover 5 being set and as movement clearance, described seal isolation cover 5 is made by silicon nitride industrial ceramic material; The first external rotor body 2 and the first internal rotor body 7 are made by permeability magnetic material.On the barrel inner surface of the first external rotor body 2, be along the circumferential direction evenly distributed with 12 group of first permanent magnet group 4, four blocks of bar magnets that every group of first permanent magnet group 4 is tile fragment shape by cross section form, and each piece magnet is all along the axial arranging of cylindrical shape the first external rotor body 2; Each two blocks of centres magnet of organizing in the first permanent magnet group 4 is the one 10 ° of angle permanent magnet 9, the acute angle that its magnetizing direction and the first external rotor body 2 radially form is 10 °, this is radially to pass respectively the diametric(al) of the first external rotor body 2 at the one 10 ° of angle permanent magnet 9 centers, and the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side; In the middle of being arranged on, the magnet of two magnet arranged on left and right sides is the one 40 ° of angle permanent magnet 10, the acute angle that its magnetizing direction and the first external rotor body 2 radially form is 40 °, this is radially to pass respectively the diametric(al) of the first external rotor body 2 at the one 40 ° of angle permanent magnet 10 centers, and the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side; The polar orientation that magnetizes of same group of the first permanent magnet group 4 internal magnets is identical, the opposite polarity directions that magnetizes of adjacent the first permanent magnet group 4; Close contact between the same group of interior adjacent magnets of the first permanent magnet group 4, leaves the non-magnetic isolating pad that in ，Bing gap, gap, filling non-magnet material is made between adjacent the first permanent magnet group; The internal diameter of the annular solid that described the first permanent magnet group 4 forms is identical, external diameter is identical, axial length is identical and end face alignment, ring of eddy 6 axial lengths are longer than the axial length that the first permanent magnet group 4 forms annular solids, and the width that ring of eddy 6 both ends of the surface exceed the first permanent magnet group 4 both ends of the surface equates.

Below in conjunction with accompanying drawing, a use procedure of the present utility model is described:

As shown in Figure 1 and Figure 2, the present embodiment is used for sealing transmission (as permanent-magnet eddy current magnetic drive pump or magnetic stirring apparatus), when in service position, the first internal rotor body 7 and the first external rotor body 2 coaxially arrange, the first external rotor 19(permanent magnet rotor), as power rotor, by axle sleeve, be connected with prime mover (as motor) driving shaft 1; The first internal rotor 20(eddy current conductor rotor), as driven rotor, by axle sleeve, be connected with load (as blower fan, water pump) rotating shaft 8.

In the course of work, first prime mover driven axle 1 drives power rotor (permanent magnet rotor) to rotate, and now not yet motion of driven rotor (eddy current conductor rotor) and load rotating shaft 8 thereof; Because the polar orientation that magnetizes of the first permanent magnet group 4 of two adjacent groups in permanent magnet rotor is contrary, so when permanent magnet rotor and the motion for the relative rotation of eddy current conductor rotor, the ring of eddy 6 interior formation alternating magnetic field of the first permanent magnet group 4 meetings in eddy current conductor rotor in permanent magnet rotor; Because ring of eddy 6 is to be become by electric conducting material copper, the alternating magnetic field that the first permanent magnet group 4 produces can generate the eddy current of alternation within it, and then this eddy current produces Induced magnetic field again in ring of eddy 6; In Induced magnetic field and permanent magnet rotor, the stationary magnetic field of the first permanent magnet group 4 interacts, and just between two rotors, produces coupling torque, thereby drives driven rotor and load rotating shaft 8 thereof to do rotatablely move identical with power rotor direction; After this, in load rotating shaft 8 output torques one regularly, between power rotor and driven rotor, keep certain speed discrepancy, power rotor is faster than driven rotor rotating speed all the time, the two remains motion for the relative rotation, thereby maintaining all the time above-mentioned coupling process, between two rotors, reaching the object of transmitting motion-promotion force.

Embodiment bis-:

As shown in Figure 3, Figure 4, a kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, comprise as the permanent magnet rotor of the first external rotor 19 with as the ring of eddy rotor of the first internal rotor 20, permanent magnet rotor is comprised of cylindrical shape the first

external rotor body

2 and 18 group of first permanent magnet group 4, and the first permanent magnet group 4 is bonded and fixed on the barrel inner surface of the first external rotor body 2 by magnetic-conductive adhesive; Ring of eddy rotor is comprised of cylindrical the first internal rotor body 7 and ring of eddy 6, ring of eddy 6 is cirque structure, by copper product, made, ring of eddy 6 is arranged on the sidewall outer surface of the first internal rotor body 7 by heat expansion connected mode, the first permanent magnet group 4 is corresponding with ring of eddy 6, between permanent magnet rotor and ring of eddy rotor, leave gap, as movement clearance; The first external rotor body 2 and the first internal rotor body 7 are made by permeability magnetic material.On the barrel inner surface of the first external rotor body 2, be along the circumferential direction evenly distributed with 18 group of first permanent magnet group 4, five blocks of bar magnets that every group of first permanent magnet group 4 is tile fragment shape by cross section form, and each piece magnet is all along the axial distribution of cylindrical shape the first external rotor body 2; Center magnet in every group of first permanent magnet group 4 is the one 0 ° of angle permanent magnet 11, and its magnetizing direction is radially identical with the first external rotor body 2, and this is radially the diametric(al) through the first external rotor body 2 at the one 0 ° of angle permanent magnet 11 centers; The magnet that is arranged on the one 0 ° of angle permanent magnet 11 adjacent arranged on left and right sides is the one 15 ° of angle permanent magnet 12, the acute angle that its magnetizing direction and the first external rotor body 2 radially form is 15 °, this is radially to pass respectively the diametric(al) of the first external rotor body 2 at the one 15 ° of angle permanent magnet 12 centers, and the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side; Two blocks of permanent magnets of outermost are the first 45° angle permanent magnet 13, the acute angle that its magnetizing direction and the first external rotor body 2 radially form is 45 °, this is radially to pass respectively the diametric(al) of the first external rotor body 2 at the first 45° angle permanent magnet 13 centers, and the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side; The polar orientation that magnetizes of same group of the first permanent magnet group 4 internal magnets is identical, the opposite polarity directions that magnetizes of adjacent the first permanent magnet group 4; Close contact between the same group of interior adjacent magnets of the first permanent magnet group 4, close contact between adjacent the first permanent magnet group 4.The internal diameter of the annular solid that described the first permanent magnet group 4 forms is identical, external diameter is identical, axial length is identical and end face alignment, ring of eddy 6 axial lengths are longer than the axial length that the first permanent magnet group 4 forms annular solids, and the width that ring of eddy 6 both ends of the surface exceed the first permanent magnet group 4 both ends of the surface equates.

As shown in Figure 3, Figure 4, the present embodiment is used as permanent-magnet eddy current speed regulator or shaft coupling, when in service position, the first internal rotor body 7 and the first external rotor body 2 are coaxially arranged, the first external rotor 19(permanent magnet rotor), as power rotor, by axle sleeve, be connected with prime mover (as motor) driving shaft 1; The first internal rotor 20(eddy current conductor rotor), as driven rotor, by axle sleeve, be connected with load (as blower fan, water pump) rotating shaft 8.

Embodiment tri-:

As shown in Figure 5, Figure 6, a kind of socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, comprise as the ring of eddy rotor of the second external rotor 21 with as the permanent magnet rotor of the second internal rotor 22, ring of eddy rotor is comprised of cylindrical shape the second external rotor body 14 and ring of eddy 6, ring of eddy 6 is cirque structure, by copper product, made, ring of eddy 6 is fixed by screws on the barrel inner surface of the second external rotor body 14; Permanent magnet rotor is comprised of cylindrical the second

internal rotor body

16 and 12 group of second permanent magnet group 15, and the second permanent magnet group 15 is bonded and fixed on the sidewall outer surface of the second internal rotor body 16 by magnetic-conductive adhesive; The second permanent magnet group 15 is corresponding with ring of eddy 6, between permanent magnet rotor and ring of eddy rotor, leaves gap, and as movement clearance, the second external rotor body 14 and the second internal rotor body 16 are made by permeability magnetic material; On the sidewall outer surface of the second internal rotor body 16, be along the circumferential direction evenly distributed with 12 group of second permanent magnet group 15, every group of second permanent magnet group 15 is three bar magnets compositions of tile fragment shape by cross section, and each piece magnet is axial distribution on the sidewall outer surface of the second internal rotor body 16; Each middle magnet of organizing in the second permanent magnet group 14 is the 20 ° of angle permanent magnet 17, and its magnetizing direction is radially identical with the second internal rotor body 16, and this is radially the diametric(al) through the second internal rotor body 16 at the 20 ° of angle permanent magnet 17 centers; The magnet that is arranged on the 20 ° of angle permanent magnet 17 arranged on left and right sides is the 2 25 ° of angle permanent magnet 18, the acute angle that its magnetizing direction and the second internal rotor body 16 radially form is 25 ° of angles, this is radially to pass respectively the diametric(al) of the second internal rotor body 16 at the 2 25 ° of angle permanent magnet 18 centers, and the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet outside; The polar orientation that magnetizes of same group of the second permanent magnet group 15 internal magnets is identical, the opposite polarity directions that magnetizes of adjacent the second permanent magnet group 15; Close contact between the same group of interior adjacent magnets of the second permanent magnet group 15, close contact between adjacent the second permanent magnet group 15.The internal diameter of the annular solid that described the second permanent magnet group 15 forms is identical, external diameter is identical, axial length is identical and end face alignment, ring of eddy 6 axial lengths are longer than the axial length that the second permanent magnet group 15 forms annular solids, and the width that ring of eddy 6 both ends of the surface exceed the second permanent magnet group 15 both ends of the surface equates.

The magnetism-gathering magnetic line structure that the second permanent magnet group 15 forms by two blocks of magnet as shown in Figure 7.

As shown in Figure 5, Figure 6, the present embodiment can be used as permanent-magnet eddy current speed regulator or shaft coupling uses, and when in service position, the second internal rotor body 16 and the second external rotor body 14 are coaxially arranged; The second external rotor 21(eddy current conductor rotor), as power rotor, by axle sleeve, be connected with prime mover (as motor) driving shaft 1; The second internal rotor 22(permanent magnet rotor), as driven rotor, by axle sleeve, be connected with load (as blower fan, water pump) rotating shaft 8.

In the course of work, first prime mover driven axle 1 drives power rotor (eddy current conductor rotor) to rotate, and now not yet motion of driven rotor (permanent magnet rotor) and load rotating shaft 8 thereof; Because the polar orientation that magnetizes of the second permanent magnet group 15 of two adjacent groups in permanent magnet rotor is contrary, so when permanent magnet rotor and the motion for the relative rotation of eddy current conductor rotor, the ring of eddy 6 interior formation alternating magnetic field of the second permanent magnet group 15 meetings in eddy current conductor rotor in permanent magnet rotor; Because ring of eddy 6 is to be become by electric conducting material copper, the alternating magnetic field that the second permanent magnet group 15 produces can generate the eddy current of alternation within it, and then this eddy current produces Induced magnetic field again in ring of eddy 6; In Induced magnetic field and permanent magnet rotor, the stationary magnetic field of the second permanent magnet group 15 interacts, and just between two rotors, produces coupling torque, thereby drives driven rotor and load rotating shaft 8 thereof to do rotatablely move identical with power rotor direction; After this, in load rotating shaft 8 output torques one regularly, between power rotor and driven rotor, keep certain speed discrepancy, power rotor is faster than driven rotor rotating speed all the time, the two remains motion for the relative rotation, thereby maintaining all the time above-mentioned coupling process, between two rotors, reaching the object of transmitting motion-promotion force.

Claims

1. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, comprise as the permanent magnet rotor of the first external rotor with as the ring of eddy rotor of the first internal rotor, permanent magnet rotor is comprised of cylindrical shape the first external rotor body and even number set the first permanent magnet group, and the first permanent magnet group is along the circumferential direction evenly arranged on the barrel inner surface of the first external rotor body, ring of eddy rotor is comprised of cylindrical the first internal rotor body and ring of eddy, ring of eddy is cirque structure, be arranged on the sidewall outer surface of the first internal rotor body, the first permanent magnet group is corresponding with ring of eddy, between permanent magnet rotor and ring of eddy rotor, leave gap, it is characterized in that, every group of first permanent magnet group is comprised of the magnet of two to five close contacts, it is identical that each organizes the magnet quantity that the first permanent magnet group comprises, when the first permanent magnet group is comprised of two blocks of magnet, acute angle that the magnetizing direction of described two blocks of magnet and the first external rotor body radially form all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side, when the first permanent magnet group is comprised of three blocks of magnet, the magnetizing direction of middle magnet is radially identical with the first external rotor body, acute angle that the magnetizing direction of both sides magnet and the first external rotor body radially form all≤30 °, and angle is identical, the intersection point of the magnetizing direction of both sides magnet is arranged on magnet inner side, when the first permanent magnet group is comprised of four blocks of magnet, the magnetizing direction of middle two blocks of magnet and the acute angle that the first external rotor body radially forms all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on inside magnet, the magnetizing direction of the two blocks of magnet in outside and acute angle that the first external rotor body radially forms all≤40 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on inside magnet, when the first permanent magnet group is comprised of five blocks of magnet, the magnetizing direction of middle magnet is radially identical with the first external rotor body, with the magnetizing direction of the magnet of the adjacent both sides of middle magnet and acute angle that the first external rotor body radially forms all≤20 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side, acute angle that the magnetizing direction of outermost two blocks of magnet and the first external rotor body radially form all≤50 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet inner side, described the first external rotor body is radially the diametric(al) through the first external rotor body of corresponding magnetic blow out centre, the polar orientation that magnetizes of same group of the first permanent magnet group internal magnet is identical, the magnet of adjacent the first permanent magnet group opposite polarity directions that magnetizes, ring of eddy axial length is longer than the greatest axial length that the first permanent magnet group forms annular solid, and the external diameter of ring of eddy is less than the minimum diameter that the first permanent magnet group forms annular solid.

2. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device according to claim 1, the cross section that it is characterized in that the magnet of described the first permanent magnet group is tile fragment shape or trapezoidal.

3. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device according to claim 1, the internal diameter that it is characterized in that the annular solid that described the first permanent magnet group forms is identical, external diameter is identical, axial length is identical and end face alignment, ring of eddy both ends of the surface exceed the first permanent magnet group both ends of the surface, and the width that exceeds both ends of the surface equates.

4. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device according to claim 1, it is characterized in that between described adjacent the first permanent magnet group close contact or leave gap, if leave gap, in gap, fill non-magnetic isolating pad, non-magnetic isolating pad adopts non-magnet material.

5. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device, comprise as the ring of eddy rotor of the second external rotor with as the permanent magnet rotor of the second internal rotor, ring of eddy rotor is comprised of cylindrical shape the second external rotor body and ring of eddy, ring of eddy is cirque structure, is arranged on the barrel inner surface of the second external rotor body; Permanent magnet rotor is comprised of cylindrical the second internal rotor body and even number set the second permanent magnet group, and the second permanent magnet group is along the circumferential direction evenly arranged on the sidewall outer surface of the second internal rotor body; The second permanent magnet group is corresponding with ring of eddy, between permanent magnet rotor and ring of eddy rotor, leave gap, it is characterized in that, every group of second permanent magnet group is comprised of the magnet of two to five close contacts, it is identical that each organizes the magnet quantity that the second permanent magnet group comprises, when the second permanent magnet group is comprised of two blocks of magnet, acute angle that the magnetizing direction of described two blocks of magnet and the second internal rotor body radially form all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet outside; When the second permanent magnet group is comprised of three blocks of magnet, the magnetizing direction of middle magnet is identical with the second internal rotor body radial direction, acute angle that the magnetizing direction of both sides magnet and the second internal rotor body radially form all≤30 °, and angle is identical, the intersection point of the magnetizing direction of both sides magnet is arranged on magnet outside; When the second permanent magnet group is comprised of four blocks of magnet, the magnetizing direction of middle two blocks of magnet and the acute angle that the second internal rotor body radially forms all≤15 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on outside magnet; The magnetizing direction of the two blocks of magnet in outside and acute angle that the second internal rotor body radially forms all≤40 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on outside magnet; When the second permanent magnet group is comprised of five blocks of magnet, the magnetizing direction of middle magnet is radially identical with the second internal rotor body, with the magnetizing direction of the magnet of the adjacent both sides of middle magnet and acute angle that the second internal rotor body radially forms all≤20 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet outside; Acute angle that the magnetizing direction of outermost two blocks of magnet and the second internal rotor body radially form all≤50 °, and angle is identical, the intersection point of the magnetizing direction of two blocks of magnet is arranged on magnet outside; Described the second internal rotor body is radially the diametric(al) through the second internal rotor body of corresponding magnetic blow out centre; The polar orientation that magnetizes of same group of the second permanent magnet group internal magnet is identical, adjacent the second permanent magnet group opposite polarity directions that magnetizes, ring of eddy axial length is longer than the greatest axial length that the second permanent magnet group forms annular solid, and the maximum outside diameter of the second permanent magnet group is less than the internal diameter of ring of eddy.

6. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device according to claim 5, the cross section that it is characterized in that the magnet of described the second permanent magnet group is tile fragment shape or trapezoidal.

7. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device according to claim 5, the internal diameter that it is characterized in that the formed annular solid of described the second permanent magnet group is identical, external diameter is identical, axial length is identical and end face alignment, ring of eddy both ends of the surface exceed the second permanent magnet group both ends of the surface, and the width that exceeds both ends of the surface equates.

8. the socket type magnetism-gathering magnetic line structure for permanent magnetic vortex drive device according to claim 5, it is characterized in that between described adjacent the second permanent magnet group close contact or leave gap, if leave gap, in gap, fill non-magnetic isolating pad, non-magnetic isolating pad adopts non-magnet material.