CN201490790U - Modular pole rotor structure of high-power permanent magnet synchronous motor - Google Patents

Abstract

The utility model provides a modular pole rotor structure of a high-power permanent magnet synchronous motor, comprising modular poles, a rotor spider and a rotating shaft, wherein the modular pole comprises a pole core, a permanent magnet, a permanent magnet groove and a pole shoe. Each modular pole of the rotor is an independent whole and arranged in a fixed groove of the rotor spider; the clearance between the poles is an axial ventilating duct; and the structure of the pole shoe facing towards an air gap is an optimized arc-shaped structure. The axial ventilating duct has better effects of ventilating and cooling, the optimized arc-shaped pole shoe structure leads the air gap magnetic flux density waveform to be in sinusoidal distribution as far as possible, and the torque ripple and harmonic of the motor are reduced. In addition, the nonmagnetic magnet is firstly installed, then the whole modular pole is magnetized so as to reduce the friction between the permanent magnet in the permanent magnet groove and a silicon steel sheet as far as possible, and the damage to a magnet coating is reduced. Furthermore, the processing and manufacturing process can realize simple and convenient assembling and disassembling and is easy for mass production and particularly applicable to manufacturing the high-power permanent magnet synchronous motor.

Description

A kind of modular magnetic pole rotor structure of high power permanent magnet synchronous motor

Technical field

The utility model relates to a kind of modular magnetic pole rotor structure of high power permanent magnet synchronous motor, relates in particular to a kind of built-in type permanent-magnet rotor structure with axial ventilation road.

Technical background

Magneto has the characteristics of efficient and High Power Factor, and for permanent-magnetic wind driven generator, in order to reduce the degree electricity cost of wind power generation, wind-power market has strengthened the demand for high-power grade permanent-magnetic wind driven generator.Though magneto has higher efficient, along with the single-machine capacity of permanent magnet generator becomes increasing, the raising of air gap tangential force density, the loss of unit volume also increase thereupon, and this will cause the working temperature of each parts of motor higher relatively.For the design of high-power permanent magnet motor, require not only that the Electromagnetic Design parameter adheres to specification, reasonable in design, but also will have good ventilation cooling system.Because the permanent magnet of magneto is responsive especially to the relevant work temperature of its application scenario, higher working temperature might cause the reduction of permanent magnet magnetic performance, even under abominable working condition, may produce situations such as irreversible loss of excitation, thereby in the index of permanent process, need select rational ventilation cooling system and feasible process production techniques scheme for use, ensure the long-term stability and the safe and reliable operation of magneto.

Along with the increase of magneto power, the volume of single magnet also increases thereupon.Particularly high-power permanent magnet motor is in the application scenario of wind power generation, and on-the-spot environment for use is abominable relatively, temperature rise, and caloric value is big, particularly corrosion-resistant, the heat resistanceheat resistant loss of excitation of permanent magnetic material etc. is required particularly important.Because single magnet volume is bigger, magnetic attraction is stronger, causes magnetic pole assembling difficulty.Silicon steel sheet exists the unevenness degree problem when laminating, when between magnet and silicon steel sheet friction being arranged, the coating that surface anticorrosion is handled is drawn and bumped the probability increase, in case the top layer is destroyed, will directly influence the performance of magnet and the useful life of motor.

In general, the rotor structure of high-power permanent magnet motor is to be made of magnet, the punching of rotor full circle and rotor field spider etc.At present, for the design of high-power permanent magnet motor, based on to the consideration to influences such as permanent magnet performances of the protection of permanent magnet and armature reaction, adopt radial ducts, permanent magnet is built-in placement, multisection type rotor magnet structure more.Adopt the full circle punching as the rotor magnetic pole punching, magnetizing equipment is difficult in to be finished disposable integral to all magnets on the big pole lamination and magnetizes.Therefore, the installation method of magnet commonly used is: before magnet is installed, earlier magnet magnetized, and then in the magnet slot of the rotor punching of packing into, this magnetic magnet installation process complexity, and must use reliable and rational frock just might guarantee to finish smoothly the installation of magnet.In addition, magnet might produce and crashed or block problems such as magnet at the air duct place in push-on process.Thereby this kind rotor structure has the complexity and the irreversibility of mounting process, and in motor operation course, if a magnetic pole breaks down, will carry out demolition and replacement to whole rotor magnetic pole, brings inconvenience for follow-up maintenance work.

Summary of the invention

The technical problems to be solved in the utility model is the rotor ventilation cooling problem that exists at high power permanent magnet synchronous motor, magnet is anticorrosion and magnet mounting process complexity, be not easy to problems such as maintenance and dismounting, has proposed a kind of modular magnetic pole rotor structure and installation method of high power permanent magnet synchronous motor.

The technical scheme that the utility model proposes is: a kind of modular magnetic pole rotor structure of high power permanent magnet synchronous motor, comprise modular magnetic pole, rotor field spider and rotating shaft, and wherein the modular magnetic pole comprises pole core, permanent magnet, permanent magnet trough and pole shoe.Pole core is overrided to form by the convex pole lamination, and permanent magnet is positioned at permanent magnet trough, and permanent magnet has the pole shoe protection outward.The cylindrical of rotor field spider has holddown groove, and holddown groove is vertically and is evenly arranged evenly on rotor field spider along circumference.Each module type magnetic of rotor is an independent integral body very, is installed in the holddown groove of rotor field spider, and the gap between the magnetic pole is the axial ventilation road, and wedge is positioned at pole lamination and rotor field spider holddown groove, and pole-shoe face is the arcuate structure of optimizing to the structure of air gap.The holddown groove that uses that is connected between modular magnetic pole and the rotor field spider can be dovetail slot or T type groove.

During installation: at first, the convex pole lamination is laminated into pole core, in (forever) magnet slot of more longitudinally will (forever) magnet packing into, by the method for vacuum paint dipping or injecting glue the assemblage gap of (forever) magnet is filled, thereby permanent magnet is locked onto the relevant position; Then, whole modular magnetic pole is magnetized; Afterwards, adopt to import and press-fitting tool imports the modular magnetic pole in the holddown groove of rotor field spider, and the gap between adjacent two magnetic poles squeezes into wedge, thereby rotor field spider and modular magnetic pole are fixed into a unified integral body.

The beneficial effects of the utility model are:

The first, utilized the design feature of salient-pole synchronous generator rotor magnetic pole, make that the gap between per two magnetic poles forms the axial ventilation road.The axial ventilation road when stoping the leakage flux effect, thereby and the effect that plays the cooling of ventilating replaced the radial ducts and the multisection type rotor structure of conventional high-power permanent magnet motor, simplified the field structure of motor.

The second, the pole-shoe face of modular magnetic pole is an arc to the structure of air gap, and the pole shoe structure of optimization makes the air gap flux density waveform become sinusoid to distribute as far as possible, helps reducing the torque pulsation and the harmonic wave of motor.

The 3rd, adopt this kind module type magnetic electrode structure can realize earlier nonmagnetic magnet being installed, then whole modular magnetic pole is magnetized.Because the punching unevenness degree when there is burr in the pole core silicon steel sheet and laminates, adopt this installation method can shorten the friction of permanent magnet in magnet slot and between the silicon steel sheet as much as possible, reduce destruction, thereby increase the corrosion resistance of permanent magnet magnet coating.

The 4th, process for machining and manufacturing can be realized simple and convenient assembling, is suitable for production in enormous quantities, is specially adapted to the manufacturing of high power permanent magnet synchronous motor.

Below in conjunction with accompanying drawing most preferred embodiment is elaborated.

Description of drawings

Fig. 1 is an overall structure schematic diagram of the present utility model;

Fig. 2 is a module type magnetic electrode structure schematic diagram of the present utility model.

Embodiment

Below in conjunction with accompanying drawing, execution mode of the present utility model is done an explanation:

As shown in Figure 1 and Figure 2, a kind of modular magnetic pole rotor structure of high power permanent magnet synchronous motor comprises modular magnetic pole 1, rotor field spider 2 and rotating shaft 3.Wherein modular magnetic pole 1 comprises pole core 6, permanent magnet 7, permanent magnet trough 8 and pole shoe 9.Pole core 6 is overrided to form by the convex pole lamination, has permanent magnet trough 5 in every utmost point punching, and permanent magnet 7 is installed in the permanent magnet trough 8, and pole shoe 9 protections are arranged outside the permanent magnet 7.The rotor field spider cylindrical has holddown groove 4, and holddown groove 4 is vertically and is evenly arranged evenly on rotor field spider 2 along circumference.Each modular magnetic pole 1 is an integral body separately, is positioned at the holddown groove 4 of rotor field spider.Gap between per two magnetic poles is axial ventilation road 5, and pole shoe 9 is the arcuate structure of optimizing towards the structure of air gap.

During installation, at first the convex pole lamination is laminated into pole core 6, in the permanent magnet trough 8 of longitudinally magnet 7 being packed into again, and the method for vacuum paint dipping or injecting glue is filled the assemblage gap of (forever) magnet; Then whole modular magnetic pole 1 is magnetized, adopt importing and press-fitting tool modular magnetic pole 1 to be installed in the holddown groove 4 of rotor field spider 2 outsides again, gap between the two magnetic pole persons is filled by wedge 10, thereby rotor field spider and modular magnetic pole are fixed into a unified integral body.

Claims (5)

1. the modular magnetic pole rotor structure of a high power permanent magnet synchronous motor, comprise modular magnetic pole, rotor field spider and rotating shaft, wherein the modular magnetic pole comprises pole core, permanent magnet, permanent magnet trough and pole shoe, the gap that it is characterized by between two magnetic poles is the axial ventilation road, and pole-shoe face is the arcuate structure of optimizing to the structure of air gap.

2. the modular magnetic pole rotor structure of a kind of high power permanent magnet synchronous motor as claimed in claim 1, it is characterized by in the gap of adjacent two magnetic poles has wedge.

3. the modular magnetic pole rotor structure of a kind of high power permanent magnet synchronous motor as claimed in claim 1 or 2, it is characterized by described pole core is the convex pole lamination that laminates.

4. the modular magnetic pole rotor structure of a kind of high power permanent magnet synchronous motor as claimed in claim 1 or 2 is characterized by the modular magnetic pole and is dovetail slot with the holddown groove that uses that is connected between the rotor field spider.

5. the modular magnetic pole rotor structure of a kind of high power permanent magnet synchronous motor as claimed in claim 1 or 2 is characterized by the modular magnetic pole and is T type groove with the holddown groove that uses that is connected between the rotor field spider.

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