Magneto-thermal isolation type stator structure and motor
A stator structure and isolation technology, applied in the direction of magnetic circuit shape/style/structure, winding insulation shape/style/structure, magnetic circuit, etc., can solve the problems of motor burnout damage, failure to achieve fault-tolerant operation, etc., to achieve improved isolation The ability of heat and magnetic isolation, improving flexibility and improving the effect of slot full rate
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Embodiment 1
[0045] This embodiment provides a motor, such as figure 1 and figure 2 As shown, it includes: casing, magneto-thermal isolation stator structure and rotor. The casing has an accommodation cavity for accommodating the rotor and the magnetothermally isolated stator structure; the rotor and the magnetothermally isolated stator structure are mutually nested. Specifically, this embodiment takes an inner-rotor motor as an example, and a magnetic-thermal isolation type stator structure is sleeved on the outer side of the rotor.
[0046] In this embodiment, the rotor includes: a rotor core 21 , a rotating shaft 22 and several magnetic steels 23 . Wherein, the rotating shaft 22 is fixedly connected with the rotor core 21, and the magneto-thermal isolation type stator structure is sleeved on the outer periphery of the rotor core 21; the magnetic steel 23 is limited and fixed on the side wall surface of the rotor core 21 facing the magneto-thermal isolation type stator structure supe...
Embodiment 2
[0058] This embodiment provides a motor, which differs from the motor provided in Embodiment 1 in that:
[0059] In an implementation manner in this embodiment, the isolated stator teeth 13 and the stator yoke 11 may be arranged to be plugged into each other.
[0060] In the second implementation of this embodiment, the notch of the isolation slot 131 can be set on the wall surface of the isolated stator tooth 13 facing the coil 14, that is, the side of the isolated stator tooth 13, which can also meet the requirements for the fault heat. isolation.
[0061] Of course, the number of isolated stator teeth 13 can also be any number, and the more the number of isolated stator teeth 13 is, the higher the reliability of isolating the coils 14 on both sides thereof will be.
[0062] In the third implementation mode of this embodiment, the stator teeth 12 and the stator teeth 13 are installed in the circumferential direction along the stator yoke 11, and the stator teeth 12 can be i...
Embodiment 3
[0064] This embodiment provides a motor, which differs from the motor provided in Embodiment 1 or Embodiment 2 in that:
[0065] The motor is an external rotor motor, that is, the rotor is arranged outside the magnetothermally isolated stator structure. The stator yoke 11 is provided at the center of rotation, and the rotor core 21 is provided outside the stator yoke 11 . And using the above-mentioned magnetic-thermal isolation type stator structure also realizes the effect of magnetic isolation and heat insulation.
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