单相电容启动异步电动机设计
7. 每槽导线数
跨槽 2 4 6
8.副绕组线规
线规直径da=0.38(mm), daˊ=0.40 (mm) 导线截面积 Sa?0.1134(mm) 9.副绕组平均半匝长:
La=L1+(πDeyaγ)/Q1
=7.5+(π×9.37×5×1.35)/24
=14.119 (cm)
10. 副绕组电阻:
R1a=2.17Zφ1aLmcua×10-4/(a2Sa)
=2.17×14.119×2640×10-4/(1×0.1134×1)
=71.327
百分比 36.6 63.4 36.6 每槽导线数 70 121 70 5.8运行性能计算
1.设定转差率S=0.04
2.系数 Xa?Xum?X2m?501.972?30.176?532.148
Ka?Xum/Xa?501.972/532.148?0.943
2M1?0.5K??R2m?0.5?0.9432?23.875?10.615
M2?R2m/Xa?30.176/532.148?0.057
M3?0.5K??Ra?0.5?0.943?532.148?250.921 M4?0.5K??X2m?0.5?0.943?30.176?14.228
3.正序电阻
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单相电容启动异步电动机设计
Rf=(M1/S)/[(M2/S)+1]
=87.441 (Ω)
4.负序电阻
Rb=[M1/(2-S)]/{[M2/(2-S)]2+1} =5.411 (Ω)
5.正序电抗
Xf=[M3(M2/S)2+M4]/[(M2/S)2+1]
=172.821 (Ω)
6.负序电抗
Xb={M3[M2/(2-S)]2+M4}/{[M2/(2-S)]2+1} =14.428 (Ω)
7.等效总电阻
RT=R1m+Rf+Rb
=25.722+87.441+5.471
=118.634 (Ω)
8.等效总电抗
XT=X1m+Xf+Xb
=11.824+172.821+14.428
=199.073 (Ω)
2
5.9电容启动电动机的性能计算
'?1. 不计铁耗电流 ILU1R?X2T2T?0.949
'(Rf?Rb)2?(Xf?Xb)2?198.341 2. 电势 E?IL'23. 输出功率 p2?IL(Rf?Rb)(1?s)?pfw?pFe?372
??
'?4. 计及铁耗电流 IL?ILPFe2ERTR?X2T2T?0.977
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单相电容启动异步电动机设计
5. 电流密度 ?m?
IL?4.977
am?Sm?Nm2?R1m?24.552 6. 定子铜耗 pC?IL27. 转子正序铜耗 pCu2f?IL?Rf?s?3.149 28. 转子负载铜耗 pCu2b?IL?Rb?(2?s)?9.551
9. 输入功率 p1?p2?pCu1?pCu2f?pCu2b?pFe?pfw?428.892 10. 效率 ??p2?100%=61.725% p1p1=0.642 U1?L1120f1=1440 pp2?2.473 n?0.949
11. 功率因数 cos??12. 转速 n=(1-s)
13. 转矩 TM?0.97514. 电流 Im?U1R?X2T2T15. 输出功率 p2?I12m(Rf?Rb)(1?sm)?pfw?pFe?48.052 16. 最大转矩倍数 TM?17. 空载点计算
空载电抗 X0?Xpm?X1m?513.796
空载电流 I0???(1?s)p2m?1.735
(1?Sm)p22U1?0.617
XTm?X02定子铜耗 pCu20?0.5I0R1M??Xpm?X?X2m?pm???4.287 ??空载电流 p10?pCu10?pfw?pFe?pCu20
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单相电容启动异步电动机设计
5.10有效材料用量
1. 硅钢片重量
GFe=7.85×D12L1KFe×10-3
=7.85×12.82×7.5×0.95×10-3
=8.849 (kg)
2. 主绕组铜重
Gcum=8.9×LmcuZφ1Sm×10-5
=8.9×14.119×1648×0.1963×10-5
=0.407 (kg)
3. 副绕组铜重
Gcua=8.9×LacuZφ1aS1a×10-5
=8.9×14.119×2640×0.1134×10-5
=0.376 (kg) 4. 总铜重 Gcu=Gcum+Gcua =0.407+0.306
=0.713 (kg)
5. 转子铝重
GAL=2.7(L2S2Ab+2πDReAR)×10-3
=2.7×7.5×30×0.243×10-3
=0.148 (kg)
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