CN105978181A - Anti-electromagnetism wind power generator rotor - Google Patents

Abstract

The invention relates to an anti-electromagnetism wind power generator rotor, and the rotor comprises a stator body. The stator body is formed by the continuous lamination of a plurality of silicon steel sheets (1). The silicon steel sheets are respectively of an annular structure with a central hole (2). The rotor is characterized in that the annular regions of the silicon steel sheets (1) are respectively provided with 3-6 fan-shaped grooves (3); each annular region between the adjacent fan-shaped grooves (3) is provided with an installation hole (4); the surfaces of the silicon steel sheets (1) are coated with anti-electromagnetism coating layers. The annular regions of the silicon steel sheets (1) are respectively provided with 3-6 fan-shaped grooves (3), thereby reducing the weight of the rotor, and enabling the energy conversion efficiency to be higher. Moreover, the rotor has an anti-electromagnetism function.

Description

Anti-electric magnetism type wind driven generator rotor

Technical field

The present invention relates to a kind of anti-electric magnetism type wind driven generator rotor, belong to field of electromechanical technology.

Background technology

Wind-driven generator by head, turn, empennage, blade form.Every part is the most critically important, and functions is: blade is used for accepting wind-force and transferring electric energy to by head；Empennage makes blade all the time facing to the direction the wind comes from thus obtains the wind energy of maximum；Turn the function that head can be made to rotate to realize empennage adjustment direction neatly；The rotor of head is permanent magnet, and stator winding cutting magnetic line produces electric energy.Traditional anti-electric magnetism type wind driven generator rotor is stacked to press solidly by multi-disc solid silicon steel disc and forms, and owing to rotor operationally not stall is moved, solid stalloy rotor is the heaviest, and energy conversion efficiency is relatively low.

Existing rotor can not the most anti-electromagnetism, can not meet the needs of client.

Summary of the invention

It is an object of the invention to overcome above-mentioned deficiency, it is provided that the anti-electric magnetism type wind driven generator rotor that a kind of energy conversion efficiency is higher.

The object of the present invention is achieved like this:

A kind of anti-electric magnetism type wind driven generator rotor, including stator body, described stator body is formed by multi-disc stalloy stacked pressing solidly continuously, described stalloy is the loop configuration with centre bore, 3 ~ 6 fan grooves it are uniformly provided with in the annular region of described stalloy, annular region between described adjacent fan groove is equipped with an installing hole, described stalloy surface-coated has anti-electric magnetic coating, described anti-electric magnetic coating contains the plexiglass as host material and the mesoporous carbon CMK-3 as packing material, the loading of described mesoporous carbon CMK-3 is 14～40wt%, wherein said mass percent is in terms of the gross mass of plexiglass and mesoporous carbon CMK-3, the thickness of described Electromagnetism Shield Composite Coating is 0 .35～0 .45mm.

Compared with prior art, the invention has the beneficial effects as follows:

4 fan grooves it are uniformly provided with so that the weight of this anti-electric magnetism type wind driven generator rotor is mitigated, and energy conversion efficiency is higher in the annular region of stalloy of the present invention；Stalloy surface-coated has anti-electric magnetic coating, and it has low reflection to electromagnetic wave, and this coating capability of electromagnetic shielding is good, incident electromagnetic wave absorption loss as far as possible in composite coating can be reduced the radiation pollution caused because of reflection of electromagnetic wave.

Accompanying drawing explanation

Fig. 1 is the present invention anti-electric magnetism type wind driven generator rotor structure schematic diagram.

Wherein:

Stalloy 1

Centre bore 2

Fan groove 3

Installing hole 4.

Detailed description of the invention

See Fig. 1, the one anti-electric magnetism type wind driven generator rotor that the present invention relates to, including stator body, described stator body is formed by multi-disc stalloy 1 stacked pressing solidly continuously, described stalloy 1 is the loop configuration with centre bore 2, being uniformly provided with 4 fan grooves 3 in the annular region of described stalloy 1, the central angle of described fan groove 3 points to the center of circle of centre bore 2, and the annular region between described adjacent fan groove 3 is equipped with an installing hole 4.

Described stalloy 1 surface-coated has anti-electric magnetic coating, described anti-electric magnetic coating contains the plexiglass as host material and the mesoporous carbon CMK-3 as packing material, the loading of described mesoporous carbon CMK-3 is 14～40wt%, wherein said mass percent is in terms of the gross mass of plexiglass and mesoporous carbon CMK-3, and the thickness of described Electromagnetism Shield Composite Coating is 0 .35～0 .45mm.

Claims (1)

1. null1. an anti-electric magnetism type wind driven generator rotor，Including stator body，Described stator body is formed by the most stacked the pressing solidly of multi-disc stalloy (1)，Described stalloy (1) is the loop configuration with centre bore (2)，It is characterized in that in the annular region of described stalloy (1), being uniformly provided with 3 ~ 6 fan grooves (3)，Annular region between described adjacent fan groove (3) is equipped with an installing hole (4)，Described stalloy (1) surface-coated has anti-electric magnetic coating，Described anti-electric magnetic coating contains the plexiglass as host material and the mesoporous carbon CMK-3 as packing material，The loading of described mesoporous carbon CMK-3 is 14～40wt%，Wherein said mass percent is in terms of the gross mass of plexiglass and mesoporous carbon CMK-3，The thickness of described Electromagnetism Shield Composite Coating is 0 .35～0 .45mm.