Electrical generator or motor structure – Dynamoelectric – Rotary
Reexamination Certificate
2001-12-07
2004-05-25
Mullins, Burton (Department: 2834)
Electrical generator or motor structure
Dynamoelectric
Rotary
C310S156210, C310S156380, C310S156410, C180S065100
Reexamination Certificate
active
06741002
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to a motor having a rotor with interior permanent magnets, more particularly it relates to a motor with interior split-permanent-magnets, such that it restrains eddy-currents from occurring and prevents demagnetization of the magnets.
BACKGROUND OF THE INVENTION
FIG. 11
illustrates a rotor with interior permanent magnets of a conventional motor. The motor has rotor
310
in which permanent magnets
312
are embedded, and rotor
310
is disposed in a stator (not shown) with concentrated wounds, so that the motor can be driven by not only magnet torque but also reluctance torque. This rotor is hereinafter referred to as a “rotor with interior permanent magnets”.
However this conventional motor has the following problems:
Compared with a motor with a distributed-wound stator, a motor with a concentrated-wound stator subjects itself to greater changes of magnetic flux interlinked with rotor
310
when the motor rotates. As a result, a large-eddy-current occurs in magnets
312
embedded in the rotor, and thus the motor with a concentrated-wound stator is vulnerable to irreversible demagnetization of the magnets. Meanwhile, the distributed-wound stator is structured in the following way: A slot is formed between two stator-teeth, and a plurality of teeth thus form a plurality of slots. Wounds striding over at least one slot are provided, and part of a wound of a phase exists between pitches of another phase wound. The concentrated-wound stator, on the other hand, is structured by providing a wound of one phase to one stator tooth respectively.
The reason why the motor having the concentrated-wound stator is vulnerable to demagnetization is detailed hereinafter.
It is well known that eddy current lost “W
c
” is proportionate to a square of maximum operable magnetic-flux density “B
m
”, and this relation can be expressed in the following equation.
W
c
P
t
/t={
⅙&rgr;)}&pgr;
2
f
2
B
m
2
t
2
[W/m
3
]
wherein P
t
=power consumption
t=plate width interlinking with the magnetic flux
&rgr;=resisting value proper to the permanent magnet
f=exciting frequency
Since the motor having the concentrated-wound stator is subjected to greater changes in magnetic flux running through the rotor, the maximum operable magnetic-flux density “B
m
” in the above equation becomes greater and thus eddy-current loss “W
c
” grows larger.
If a motor has the concentrated-wound stator, and yet, the permanent magnets are struck onto an outer wall of the rotor, the changes in magnetic-flux-density is not so large that the demagnetization of the magnets due to the eddy-current loss is negligible. In the motor having the concentrated-wound stator and a rotor in which the permanent magnets are embedded, the space between the magnet and the outer circumference of rotor core
314
forms a path for the magnetic-flux to flow. The density of magnetic-flux from the stator changes depending on the position of stator teeth with regard to the magnets, so that magnitude of changes in the magnetic-flux-density at the path is increased. As a result, eddy-current occurs in the magnets
312
embedded in rotor
310
, thereby heating the magnet to produce irreversible magnetization of the magnet.
SUMMARY OF THE INVENTION
The present invention addresses the problems discussed above and aims to provide a motor having a rotor with interior-permanent-magnets. This rotor produces less eddy-current and can prevent demagnetization of the permanent magnets embedded in the rotor.
The motor of the present invention comprises the following elements:
a rotor in which permanent magnets are embedded, and
a stator of which teeth are wound by wounds in a concentrated manner.
The permanent magnets are split into magnet pieces, and insulating sections are inserted into respective gaps between respective magnet pieces. This structure splits the magnets electrically, thereby restraining the eddy-current from occurring and then suppressing the demagnetization of the magnets embedded in the rotor.
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Ikkai Yasufumi
Kondo Yasuhiro
Nakamura Tomokazu
Nishiyama Noriyoshi
Ogushi Masaki
Mullins Burton
Wenderoth , Lind & Ponack, L.L.P.
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