CN203679260U - Anisotropy multi-pole magnetic ring forming mold system - Google Patents

Anisotropy multi-pole magnetic ring forming mold system Download PDF

Info

Publication number
CN203679260U
CN203679260U CN201320810009.XU CN201320810009U CN203679260U CN 203679260 U CN203679260 U CN 203679260U CN 201320810009 U CN201320810009 U CN 201320810009U CN 203679260 U CN203679260 U CN 203679260U
Authority
CN
China
Prior art keywords
magnetic
mold cavity
coil windings
charge
ring forming
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201320810009.XU
Other languages
Chinese (zh)
Inventor
丁世瑜
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN201320810009.XU priority Critical patent/CN203679260U/en
Application granted granted Critical
Publication of CN203679260U publication Critical patent/CN203679260U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Manufacturing Cores, Coils, And Magnets (AREA)
  • Powder Metallurgy (AREA)

Abstract

The utility model discloses an anisotropy multi-pole magnetic ring forming mold system, and belongs to the field of magnetic material production. The system comprises a multi-pole magnetic ring forming mold as well as a plurality of coil windings and RC (Resistance-Capacitance) charge and discharge circuits, wherein the plurality of coil wingings are respectively wound on a plurality of magnetic poles in a mold forming chamber, and are connected with the PC charge and discharge circuits. Through great current which is instantaneously emitted from the RC charge and discharge circuits, a magnetic field which is large enough is generated from the coil windings of a relatively small amount of circles, magnetic grains are directionally arranged under the action of the magnetic field generated from the coil windings, and conditions are provided for automatically pressing anisotropy multi-pole magnetic rings and improving the magnetic properties of the magnetic rings.

Description

A kind of anisotropy multi-pole magnet-ring forming die system
Technical field
The present invention relates to a kind of magnetic materials production device, particularly a kind of anisotropy multi-pole magnet-ring forming die system.
Background technology
Multi-pole magnet-ring is widely used in permagnetic synchronous motor, Yong Ci Walk enters the fields such as motor, instrument and meter, timer, sensor, microwave device, electronic device, anisotropy multi-pole magnet-ring, compared with isotropism magnet ring, has that magnetic property is high, cost performance advantages of higher.Anisotropic magnetic material need provide a magnetic field to carry out oriented to particles of magnetic material when compressing, and the particles of magnetic material degree of orientation is higher, and the magnetic property of magnetic material is just better, and the magnetic field intensity of generation is just higher.For obtaining higher magnetic property, alignment magnetic field must have enough intensity, and alignment magnetic field is mainly that number of ampere turns determines by the current strength of coil windings and the product of the number of turn, generally needs number of ampere turns to be greater than 20000 ampere-turns.The number of magnetic poles that anisotropy multi-pole magnet-ring will be orientated is more, sometimes reach tens utmost points, this just needs many logical galvanic coil windings to work simultaneously, and the size of current that general dc source can provide is very limited, therefore the number of turn of coil windings is very large could meet required alignment magnetic field, the coil windings that multiple numbers of turn are very large to be installed in the limited space of mould very difficult, also very large to the power requirement of dc source.Therefore the magnetic field that the high performance permanent-magnet material of general employing (as neodymium iron boron) produces is now as the alignment magnetic field of particles of magnetic material, evenly embedding in mold cavity piece after high performance permanent magnetic materials dicing, thereby realize the object (as shown in Figure 2) of multipole orientation.But this kind of method is in compressing reinforced process, due to the attraction of permanent-magnet material magnetic field to particles of magnetic material, expecting that shutoff is at mould type accent, material cannot be entered in mold cavity, thereby it is compressing to realize auto feed, this kind of mould can only be made mold cavity piece and the separable Manual mold of mold cavity wall, concrete operating process is: first manually first take a certain amount of material, join in mold cavity, then be inserted in mold cavity piece, add the laggard row compacting of upper and lower die head, compacting finishes rear mold cavity to be separated with mold cavity wall, take out blank, prepare compacting next time.Therefore this kind of method compacting efficiency is lower, and because permanent-magnet material magnetic pole is difficult to the magnetic field intensity that provides higher, makes the performance of multi-pole magnet-ring be difficult to further raising.
Summary of the invention
The object of the invention is in order to overcome the problems referred to above, a kind of a kind of anisotropy multi-pole magnet-ring forming die system automatically compressing, simple and reliable for structure of being convenient to is provided.
For achieving the above object, the method that the present invention adopts is: a kind of anisotropy multi-pole magnet-ring forming die system, comprise mould, it is characterized in that: also comprise that RC charge-discharge circuit and multiple mold cavity piece interior loop winding that is positioned over are for generation of magnetic field, described coil windings, RC charge-discharge circuit interconnect, utilize the large electric current of the discharge circuit abrupt release of described RC charge-discharge circuit to make the described less coil windings of the number of turn obtain enough numbers of ampere turns, magnetic-particle is produced to enough strong alignment magnetic field, as shown in Figure 3, Figure 4.
As a modification of the present invention, described a kind of anisotropy multi-pole magnet-ring forming die system, it is characterized in that: described multiple coil windings are connected with the described RC charge-discharge circuit of one or more parallel connections, the RC charge-discharge circuit of described one or more parallel connections is electric discharge successively in the compressing process of magnet ring, until the compressing end of magnet ring.Pass through one or many pulse high current in the coil windings described in pressing process, magnetic-particle is subject to the orientation of one or many pulsed magnetic field, and in reinforced process, whole mould is without magnetic field.
As a modification of the present invention, described a kind of anisotropy multi-pole magnet-ring forming die system, it is characterized in that: described RC charge-discharge circuit is made up of charging circuit and discharge circuit, described charging circuit is mainly made up of dc source, capacitance group and current-limiting resistance, and dc source charges to capacitance group.Described discharge circuit is mainly made up of circuit turn-on device, capacitance group and coil windings, and after discharging circuit conduction, capacitance group sparks, and produces large electric current in coil windings, thereby coil windings produces stronger magnetic field, as shown in Figure 3.
As a modification of the present invention, described a kind of anisotropy multi-pole magnet-ring forming die system, it is characterized in that: described mold cavity piece is processed into multiple magnetic poles and is evenly distributed on mold cavity wall outside, mold cavity piece is closely connected with mold cavity wall, coil windings on described magnetic pole described in coiling, the magnetic field that coil windings produces makes magnetic-particle oriented by the magnetic-particle that is delivered to of described magnetic pole, as shown in Figure 4.
As a modification of the present invention, described a kind of anisotropy multi-pole magnet-ring forming die system, it is characterized in that: in described RC charge-discharge circuit, the charging voltage of described charge circuit is greater than 100 volts, described charge circuit be less than 20000 microfarads for storing electric capacitance group overall capacitance amount, the resistance value of described discharge loop is less than 0.5 ohm.
As a modification of the present invention, described a kind of anisotropy multi-pole magnet-ring forming die system, it is characterized in that: the number of turn of described coil windings is for being less than 30 circles, the number of turn of described coil windings should be less, can make described coil windings small volume, be convenient to arrange in less die space, and make the resistance value of discharge loop of described RC charge-discharge circuit less.And the described coil windings of difference coiling on described two adjacent magnetic poles, its coiling direction is different.If be clockwise coiling in the above coil windings of the magnetic pole described in, the above coil windings of its adjacent described magnetic pole is counterclockwise coiling.
As a modification of the present invention, described a kind of anisotropy multi-pole magnet-ring forming die system, is characterized in that: described mold cavity piece adopts permeability magnetic material, and described mold cavity wall adopts non-magnet_conductible material.Described mold cavity piece adopts the good material of magnetic conduction to contribute to increase the alignment magnetic field of the orientation to magnetic-particle, and it is in order to prevent the magnetic field short circuit between described magnetic pole that described mold cavity wall adopts non-magnet_conductible material.
As a modification of the present invention, described a kind of anisotropy multi-pole magnet-ring forming die system, it is characterized in that: the cartridge width of described magnetic pole is greater than the thickness of described mold cavity wall, as as described in the cartridge width of magnetic pole be d1, the thickness of described mold cavity wall is d2, answer d1>d2, as shown in Figure 4.
The invention has the beneficial effects as follows:
The instantaneous large-current that utilizes RC charge-discharge circuit to produce, makes the coil windings of the less number of turn obtain enough magnetic field intensities magnetic-particle is carried out to oriented.The coil windings of the less number of turn makes to arrange in limited die space that multiple coil windings become possibility.When reinforced, mould, without magnetic field, can fully fill up in mold cavity magnetic-particle in press material boots, for the magnetic property of the automatic compressing of anisotropy multi-pole magnet-ring and raising magnet ring has been created condition.RC charge-discharge circuit charge power is less, has certain energy-saving effect.
Brief description of the drawings
1 upper die head, 2 magnetic-particles, 3 mold cavity pieces, 4 core rods, 5 mold cavity wall,
6 lower die head, 7 permanent-magnet materials, 8 dc sources, 9 current-limiting resistances, 10 capacitance group,
11 circuit turn-on devices, 12 coil windings, 13 magnetic poles.
Fig. 1 is the schematic diagram of magnet ring forming mould tool, form mold cavity by mold cavity piece 3 and mold cavity wall 5, magnetic-particle 2 powder join in mold cavity, and upper die head 1, lower die head 6 enter in mold cavity and suppress magnet ring, and the effect of core rod 4 is to make magnet ring produce endoporus.
Fig. 2 is mould (the not comprising upper and lower die head) schematic diagram of traditional handicraft processing anisotropy multi-pole magnet-ring, and figure is the mould of compacting ends of the earth magnet ring.Eight blocks of permanent-magnet materials 7 are embedded in mold cavity piece 3, are evenly distributed on mold cavity wall 5 outsides, and oriented is carried out to the magnetic-particle 2 in mold cavity in the magnetic field of permanent-magnet material 7, and mold cavity piece 3 and mold cavity wall 5 wherein can be separated from each other.
Fig. 3 is the electrical schematics that the present invention produces multipole magnetic field, is made up of charging circuit and discharge circuit.Dc source 8, current-limiting resistance 9 and capacitance group 10 form charging circuit.Capacitance group 10, circuit turn-on device 11 and coil windings 12 form discharge circuit, and multiple coil windings 12 are placed in mold cavity piece 3, and when capacitance group 10 is discharged, coil windings 12 produces magnetic field.
Fig. 4 is mould (the not comprising upper and lower die head) schematic diagram of anisotropy multi-pole magnet-ring of the present invention, and figure is the mould of compacting ends of the earth magnet ring.Coil windings 12 is wound on the magnetic pole 13 in mold cavity piece 3 and is evenly distributed on mold cavity wall 5 outsides.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is further illustrated;
Below in conjunction with embodiment and with reference to accompanying drawing, the invention will be further described, should understand following detailed description of the invention and only be not used in and limit the scope of the invention for the present invention is described.It should be noted that, word 'fornt', 'back', " left side ", " right side ", "up" and "down" that use is described below refer to the direction in width figure, and word " interior " and " outward " refer to respectively the direction towards or away from specific features geometric center.
Magnetic-particle 2 joins in the attached hopper of press, by reinforced boots, magnetic-particle 2 is joined in mold cavity, and reinforced boots are connected with hopper.
Mold cavity piece 3 and mold cavity wall 5 are as shown in Figure 1 generically and collectively referred to as mold cavity pair, and shown upper die head 1 is connected with press upper cylinder half piston, and mold cavity pair, core rod 4 are connected with mould bases and are connected with cylinder piston under press, and lower die head 6 maintains static on mould bases.When compacting, press upper cylinder half piston driving upper die head 1 is descending, and after upper die head 1 touches mold cavity pair, driven mold die cavity is secondary descending together with core rod 4, and mold cavity pair and core rod 4 form relative motion with lower die head 6, realize the two-way compacting to magnetic-particle 2.
Concrete pressing process:
In this example, adopt three groups of charge-discharge circuits in Fig. 3 to be connected with the coil windings 12 in mold cavity piece 3.
1 is reinforced
When compacting, under press, cylinder piston driving mold cavity pair, core rod 4 risings make it in reinforced state, and reinforced boots are filled it up with magnetic-particle 2 in vibrating back and forth in mold cavity pair and making mold cavity, as shown in Figure 1.
2 is compressing
Press upper cylinder half piston driving upper die head 1 is descending, first travel switch sender in the time that upper die head 1 just will contact mold cavity pair, trigger the discharge circuit electric discharge in the first group of charge-discharge circuit of circuit turn-on device 11 conducting shown in Fig. 3, make the magnetic-particle 2 in mold cavity be subject to magnetic field orientating for the first time.Press upper cylinder half piston driving upper die head 1 continues descending, in the time of descending certain distance, second travel switch sender triggers the discharge circuit electric discharge in second group of charge-discharge circuit of second group of circuit turn-on device, 11 conducting, makes the magnetic-particle 2 in mold cavity be subject to magnetic field orientating for the second time.Same method, the discharge circuit electric discharge in the 3rd group of charge-discharge circuit, makes the magnetic-particle 2 in mold cavity be subject to magnetic field orientating for the third time.
3 demouldings
In the time that press upper cylinder half compacting pressure reaches setting, press upper cylinder half piston driving upper die head 1 is up, and under press, cylinder piston driving mold cavity pair, core rod 4 decline, and makes magnet ring after compressing deviate from mold cavity and realizes the demoulding.
A kind of anisotropy multi-pole magnet-ring forming die system of the present invention and moulding press are used in conjunction with, realize anisotropy multi-pole magnet-ring automatically compressing, improve production efficiency, eliminated human factor, be conducive to improve the magnetic property of anisotropy multi-pole magnet-ring.
The above, be only preferred embodiment of the present invention, is not the restriction of the present invention being made to any other form, and according to any amendment or equivalent variations that technical spirit of the present invention is done, still belong to the present invention's scope required for protection.

Claims (5)

1. an anisotropy multi-pole magnet-ring forming die system, comprises mould, it is characterized in that: also comprise the RC charge-discharge circuit of one or more parallel connections and be multiplely positioned over coil windings in mold cavity piece for generation of magnetic field; Described RC charge-discharge circuit is made up of charging circuit and discharge circuit, described charging circuit is mainly made up of dc source, capacitance group and current-limiting resistance, and described discharge circuit is mainly made up of circuit turn-on device, described capacitance group and described coil windings; Described mold cavity piece is processed into multiple magnetic poles and is evenly distributed on mold cavity wall outside, the coil windings on described magnetic pole described in coiling; Described coil windings and described RC charge-discharge circuit interconnect.
2. a kind of anisotropy multi-pole magnet-ring forming die system according to claim 1, it is characterized in that: in described RC charge-discharge circuit, the charging voltage of described charging circuit is greater than 100 volts, the capacitance group overall capacitance amount of described charging circuit is less than 20000 microfarads, and the resistance value of described discharge circuit is less than 0.5 ohm.
3. a kind of anisotropy multi-pole magnet-ring forming die system according to claim 1, it is characterized in that: the number of turn of described coil windings is less than 30 circles, and the described coil windings of difference coiling on two adjacent described magnetic poles, its coiling direction is different.
4. a kind of anisotropy multi-pole magnet-ring forming die system according to claim 1, is characterized in that: described mold cavity piece adopts permeability magnetic material, and described mold cavity wall adopts non-magnet_conductible material.
5. a kind of anisotropy multi-pole magnet-ring forming die system according to claim 1, is characterized in that: the cartridge width of described magnetic pole is greater than the thickness of described mold cavity wall.
CN201320810009.XU 2013-12-07 2013-12-07 Anisotropy multi-pole magnetic ring forming mold system Expired - Fee Related CN203679260U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201320810009.XU CN203679260U (en) 2013-12-07 2013-12-07 Anisotropy multi-pole magnetic ring forming mold system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320810009.XU CN203679260U (en) 2013-12-07 2013-12-07 Anisotropy multi-pole magnetic ring forming mold system

Publications (1)

Publication Number Publication Date
CN203679260U true CN203679260U (en) 2014-07-02

Family

ID=51001219

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201320810009.XU Expired - Fee Related CN203679260U (en) 2013-12-07 2013-12-07 Anisotropy multi-pole magnetic ring forming mold system

Country Status (1)

Country Link
CN (1) CN203679260U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103611938A (en) * 2013-12-07 2014-03-05 丁世瑜 Anisotropic multipole magnet ring forming mold system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103611938A (en) * 2013-12-07 2014-03-05 丁世瑜 Anisotropic multipole magnet ring forming mold system

Similar Documents

Publication Publication Date Title
CN103611938A (en) Anisotropic multipole magnet ring forming mold system
CN110947459B (en) Impurity separator for rare earth permanent magnet material for civil engineering
CN104332263B (en) A kind of slug type rare-earth permanent magnet reducing eddy-current loss and preparation method thereof
CN200986854Y (en) Aeolotropism cementing rare-earth permanent magnet orientation forming device
CN203679260U (en) Anisotropy multi-pole magnetic ring forming mold system
CN101071672A (en) Magnetizing method for batch small sintered Nd-Fe-B magnet
CN102163482B (en) Method for molding and preparing multi-level aggregation V-shaped oriental magnetic ring
CN103128283B (en) Forming die and method for preparing pressed billet of non-oriented neodymium iron boron cylindrical magnet
CN107578882A (en) A kind of continuous magnetization method of magneto and device
CN207268968U (en) A kind of continuous magnetizer of magneto
CN200947369Y (en) Aeolotropy sintering rare earth permanent magnet oriented molding device
CN204884755U (en) Multipolar magnetizer
CN205050659U (en) Novel neodymium iron boron high -energy magnetizes device
CN203044894U (en) Forming orientation degree die of sintered neodymium iron boron material powder
CN208290142U (en) The radial 12 pole magnet ring forming moulds tool of permanent-magnet ferrite
CN203140772U (en) Anisotropic sintering rare earth permanent magnetic material radial orientation device
CN201247669Y (en) Device special used for batch pre-magnetization of small volume permanent magnet
CN206357690U (en) Extrados is the magnetic shoe molding die of working face
CN201707998U (en) Pulse magnetic field device for pressing permanent magnetic product
CN109378154A (en) The multipole magnetization equipment and magnetization method of multi-station mobile
CN201655468U (en) Magnetizer
CN203809157U (en) Efficient gasoline magnetizer based on Halbach array
CN203433991U (en) Neodymium iron boron processing isolation frame easy to take out
CN202824654U (en) Sintered Nd-Fe-B pressing mold
CN103480836B (en) The prilling process of sintered neodymium-iron-boron powder

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20140702

Termination date: 20141207

EXPY Termination of patent right or utility model