CN1738153A - Rubber permanent magnet accessorial excitation bond-type synchronous reluctance machine - Google Patents
Rubber permanent magnet accessorial excitation bond-type synchronous reluctance machine Download PDFInfo
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- CN1738153A CN1738153A CN 200510086297 CN200510086297A CN1738153A CN 1738153 A CN1738153 A CN 1738153A CN 200510086297 CN200510086297 CN 200510086297 CN 200510086297 A CN200510086297 A CN 200510086297A CN 1738153 A CN1738153 A CN 1738153A
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- rotor
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- rubber permanent
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Abstract
The invention relates to an axial sheeted reluctance-synchronous machine, which is characterized in that: a rotor (2) is formed by a rotor spider (21) sheathed tightly on the rotation shaft (3), a rubber permanent magnet sheet (22), and a axial silicon sheet (23); wherein, said rubber permanent magnet sheet (22) and the axial silicon sheet (23) are arranged along the diameter of rotor from inner to outside and bonded layered on the rotor spider (21); said rotor (2) is sheathed by a non-corrodible steel rotor sheath (8) for improving the installment. Said motor has a rubber magnet which is auxiliary to magnetization and abrogates the pin of rotor for fixing axial silicon sheet. It can improve the torque density, the power density, the property and the range of speed in constant power, while the volume and weight are reduced effectively.
Description
Technical field
The present invention relates to a kind of synchronous reluctance magneto, can be described as the axial overlapping sheet synchronous reluctance machine (being called for short the SR-PM motor) of permanent magnetism additive excitation again, the additive excitation material is a rubber magnet, belongs to the new special machine field.
Background technology
The present invention is based on the axial overlapping sheet synchronous reluctance machine of existing permanent magnetism additive excitation.Existing axial overlapping sheet synchronous reluctance machine owing to need bigger exciting power, causes the power factor of motor and efficient all lower, the synchronous magnetic resistance motor of permanent magnetism additive excitation therefore occurred.But the axial overlapping sheet synchronous reluctance machine of existing axial overlapping sheet synchronous reluctance machine and permanent magnetism additive excitation all adopts the dowel fixes axial overlapping sheet, and it is excessive to cause effective magnetic circuit magnetic resistance to increase, and motor performance is more a lot of than the decreased performance that does not have pin.The present invention is a kind of axial overlapping sheet synchronous reluctance machine that utilizes the rubber magnet additive excitation, the rubber magnet that adds works the purpose that improves power factor, efficient, and the mode that the fixedly employing seccotine of axial overlapping sheet bonding and rotor overcoat combine, not only add and be used for the rubber magnet of additive excitation, and cancelled on the rotor the fixedly pin of axial overlapping sheet, the torque density and the power density of motor be will effectively improve behind the cancellation pin, motor properties volume ratio and performance weight ratio improved.
Summary of the invention: for the defective of the axial overlapping sheet synchronous reluctance machine that overcomes existing permanent magnetism additive excitation, the stainless steel pin of eliminating fastening axial overlapping sheet is given change on the magnetic circuit that the performance of reluctance motor brings and the decline on the performance, has invented a kind of synchronous magnetic resistance motor of bonded rubber permanent magnet additive excitation.
The invention is characterized in:
This synchronous magnetic resistance motor contains: stator core 1, rotor 2, rotating shaft 3, stator winding 4, front end housing 5, rear end cap 6, bearing 7 and rotor cover 8, and wherein: rotor 2 contains:
A: rotor field spider 21, this support 21 repeatedly is pressed into shape or magnetic conduction steel direct forming by silicon steel sheet, and described rotor field spider 21 tightly is enclosed within the rotating shaft 3;
B: rubber permanent magnet sheet 22 and axial silicon steel sheet laminate patch 23, they are bonded on the described rotor field spider 21 along the radial direction of rotor 2 with successively stacking gradually formula from inside to outside separately mutually, the polarity of adjacent two utmost points is opposite, and cylindrical to the desired size by grinding rotor 2 forms again;
Rotor cover 8 is made with stainless steel material, and this rotor cover 8 is tightly to be enclosed within on the rotor 2.
Described rubber permanent magnet sheet 22 and axial silicon steel sheet 23 are 0.3~0.6 at the thick ratio of the sheet of the radial direction of rotor 2.
The rigid material of described rotor field spider 21 usefulness magnetic conductions is made to be shaped or repeatedly to press with silicon steel sheet and is formed.
The main feature of this New-type electric machine is:
1. allow the q axle magnetic line of force to obtain maximum q axle inductance by whole rotor surface;
2. because there is the multilayer permanent magnetic material in the d direction of principal axis, and its magnetic characteristic is equivalent to air gap, hinders passing through of the d axle magnetic line of force, and make d axle inductance very little;
3. permanent magnetic material is embedded between the laminate patch, and its magnetic field and the effect of q shaft current produce a positive torque.
The motor of the built-in permanent magnetism of this axial overlapping sheet has good weak magnetic property, very high salient pole ratio, so the requirement of permanent magnetism is less.This motor has the characteristic of synchronous magnetic resistance motor and permagnetic synchronous motor concurrently, is a kind of very promising motor.
The sharpest edges of SR-PM motor are to accomplish very high permanent power ratio characteristic, and its torque-speed characteristic and power characteristic and permanent power bracket depend on minimum d axle magnetic linkage
ψ
dmin=ψ
PM-L
di
dm
i
DmBe the maximum current limit.Fig. 4 is several typical ψ
DminUnder the power speed characteristic curve.These curves can be divided into two kinds of situations.Work as ψ
Dmin<0 o'clock, maximum running speed theory unlimited was big, but peak power output is with ψ
DminReduce (promptly more negative) and reduce, work as ψ
Dmin>0 o'clock, maximum running speed was restricted but maximum power output compares ψ
DminWanted big at<0 o'clock.ψ
Dmin=0 is desirable output-constant operation, and its desirable output-constant operation scope is infinitely-great.But for common synchronous magnetic resistance motor, ψ
DminThe=0th, impossible, because the d-axis inductance can not be zero, so ψ
Dmin<0.Therefore the SR-PM motor satisfies ψ by adding the auxiliary d axle excitation of permanent magnet
Dmin=0 condition.For common synchronous magnetoelectric machine, the addition of its permanent magnetism is more and the value ac-dc axis inductance is very little, thereby causes ψ
Dmin>>0, maximum speed is restricted, and permanent power bracket is very narrow.
Description of drawings
Fig. 1 is the axial cross section principle schematic of electric machine iron core;
Fig. 2 is the assembly structure schematic diagram of motor;
Fig. 3 is the rotor field spider structural representation;
Fig. 4 is the relation of typical power speed characteristics and the minimum magnetic linkage of d axle.
Concrete enforcement side mode
This motor has stator core 1, rotor 2 (containing axial overlapping sheet 23, rubber permanent magnet sheet 22), rotating shaft 3, winding 4, front end housing 5, rear end cap 6, casing 12, bearing 7, rotor cover 8, rotor field spider 21 to form.Rotor field spider 21 repeatedly is pressed into shape or magnetic conduction steel direct forming by silicon steel sheet, rotor field spider 21 tightly is enclosed within the rotating shaft 3, rubber permanent magnet sheet 22 and axial silicon steel sheet 23 alternately are bonded on the rotor field spider 21 by the certain thickness ratio, rotor 2 outsides are with the stainless steel of strengthening usefulness rotor cover 8 cylindraceous, and rotating shaft 3 is supported by bearing 7.The structure of stator and the stator of universal asynchronous motor are similar, and unshakable in one's determination 1 changes fluting by silicon steel sheet, be embedded with coil in the groove, coil is connected to form winding 4, is distributed winding, number of pole-pairs and rotor 2 are consistent, and stator core 1 is enclosed within the casing 12, and casing is fixing by front end housing 5 and rear end cap 6.
At first change into rotor field spider shown in Figure 3 21 by silicon steel sheet, gluing on each arc groove successively then, to be cut into rectangular rubber permanent magnet sheet 22 adheres on the support 21, the polarity of adjacent two utmost points is opposite, gluing on rubber permanent magnet sheet 22 then, the respective thickness of 23 to every layer of axial silicon steel sheet successively bonds, continue bonding one deck rubber permanent magnet sheet 22 and corresponding axially silicon steel sheet 23 down then, after enough numbers of plies that bonds, the mill rotor cylindrical tightly is enclosed within the stainless steel rotor cover 8 that processes on the rotor 2 then to suitable dimension.The course of processing of stator and the stator of universal asynchronous motor are similar, but require identical with the number of pole-pairs of rotor 2.
Because very thin (the about 0.35mm) that the thickness of rubber permanent magnet sheet 22 can be done, therefore the rubber permanent magnet sheet 22 of mutual bonding and silicon steel sheet 23 are in the evenly distribution of can trying one's best in the radial direction, as long as keep the ratio of thickness to meet design requirement, can effectively reduce the influence of slot effect like this.
Embodiment 2
With scheme one main be not both the steel direct forming of rotor field spider 21 by magnetic conduction, all the other steps are with scheme one.
Claims (4)
1. the bonded axial overlapping sheet synchronous reluctance machine of rubber permanent magnet additive excitation, it is characterized in that, this synchronous magnetic resistance motor contains: stator core (1), rotor (2), rotating shaft (3), stator winding (4), front end housing (5), rear end cap (6), bearing (7) and rotor cover (8), and wherein: rotor (2) contains:
A: rotor field spider (21), this support (21) repeatedly is pressed into shape or magnetic conduction steel direct forming by silicon steel sheet, and described rotor field spider (21) tightly is enclosed within the rotating shaft (3);
B: rubber permanent magnet sheet (22) and axial silicon steel sheet laminate patch (23), they are bonded on the described rotor field spider (21) along the radial direction of rotor (2) with successively stacking gradually formula from inside to outside separately mutually, the polarity of adjacent two utmost points is opposite, and cylindrical to the desired size by grinding rotor (2) forms again;
Rotor cover (8) is made with stainless steel material, and this rotor cover (8) is tightly to be enclosed within on the rotor (2).
2. the bonded synchronous magnetic resistance motor of rubber permanent magnet additive excitation according to claim 1 is characterized in that: described rubber permanent magnet sheet (22) and axial silicon steel sheet (23) are 0.3~0.6 at the thick ratio of the sheet of the radial direction of rotor (2).
3. the bonded synchronous magnetic resistance motor of rubber permanent magnet additive excitation according to claim 1 is characterized in that: described rotor field spider (21) is made of the rigid material of magnetic conduction and is shaped.
4. the bonded synchronous magnetic resistance motor of rubber permanent magnet additive excitation according to claim 1 is characterized in that: described rotor field spider (21) is repeatedly pressed with silicon steel sheet and is formed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2005100862979A CN100395942C (en) | 2005-08-26 | 2005-08-26 | Rubber permanent magnet accessorial excitation bond-type synchronous reluctance machine |
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CNB2005100862979A CN100395942C (en) | 2005-08-26 | 2005-08-26 | Rubber permanent magnet accessorial excitation bond-type synchronous reluctance machine |
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CN1738153A true CN1738153A (en) | 2006-02-22 |
CN100395942C CN100395942C (en) | 2008-06-18 |
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CNB2005100862979A Expired - Fee Related CN100395942C (en) | 2005-08-26 | 2005-08-26 | Rubber permanent magnet accessorial excitation bond-type synchronous reluctance machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106537739A (en) * | 2014-07-30 | 2017-03-22 | 大金工业株式会社 | Electric motor |
CN111095753A (en) * | 2017-08-22 | 2020-05-01 | 纬湃科技有限责任公司 | Rotor of electric machine for vehicle |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0951643A (en) * | 1995-08-04 | 1997-02-18 | Daido Steel Co Ltd | Synchronous motor |
CN1208888C (en) * | 2003-05-21 | 2005-06-29 | 哈尔滨工业大学 | Axial exciting mixed reluctance motor |
-
2005
- 2005-08-26 CN CNB2005100862979A patent/CN100395942C/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106537739A (en) * | 2014-07-30 | 2017-03-22 | 大金工业株式会社 | Electric motor |
US10348174B2 (en) | 2014-07-30 | 2019-07-09 | Daikin Industries, Ltd. | Electric motor |
CN111095753A (en) * | 2017-08-22 | 2020-05-01 | 纬湃科技有限责任公司 | Rotor of electric machine for vehicle |
US11264875B2 (en) | 2017-08-22 | 2022-03-01 | Vitesco Technologies GmbH | Rotor for an electric machine of a vehicle |
CN111095753B (en) * | 2017-08-22 | 2022-05-27 | 纬湃科技有限责任公司 | Rotor of electric machine for vehicle |
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CN100395942C (en) | 2008-06-18 |
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Granted publication date: 20080618 Termination date: 20110826 |