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三相电机额定电压U=380V,f=50HZ,机座号Y132,输出P2=8KW,p=4极1.型号:Y132M2.输出功率:PN=8KW3.相数:m1=34.接法:5.相电压:Uφ=380V6.功电流:7.极对数:p=28.定子槽数:Z1=369.转子槽数:Z2=3210.定子每极每相槽数:11.定子外径:D1=21cm定子内径:Di1=13.6cm气隙长度:δ=0.4mm转子外径:D2=13.52cm13.6-0.04*2=13.52cm转子内径:Di2=4.8cm定子槽型:半闭口圆底槽定子槽尺寸:bo1=0.35cmb1=0.67cmho1=0.08cmR1=0.44cmh12=1.45cm转子槽形:梯形槽转子槽尺寸:bo2=0.1cmbr1=0.55cmbr2=0.3cmho2=0.05cmhr12=2.3cm12.极距:13.定子齿距:14.转子齿距:15.气隙长度:16.转子斜槽距:bsk=t1=1.187cm17.铁芯长度:l=16cm18.铁芯有效长度:无径向通风道:lef=l+2δ=16.08cm19.净铁芯长:无径向通风道:lFe=KFel=0.95*16=15.2cmKFe=0.95(不涂漆)20.绕组型式:单层交叉式21.并联支路数:a1=122.节距:1-9,2-10,11-1823.每槽导线数:由后面计算的数据根据公式计算为:每极磁通φ1=0.00784wb波幅系数:KA=1.46绕组系数:Kdp1=0.96每相串联有效导线数:K’z取1.21每相串联导线数:每槽导线数:取整数:N1=3524.线规:导线并饶根数与截面积之积(式中的值由其后的公式算得):由此可通过查表知线规为:2-1.06(N-φ)25.每根导线截面积:Acl=0.00882cm226.槽有效面积:Ae=As-Ai=1.1444cm2()()Ci-绝缘厚度h-槽楔厚度Ci=0.08mm27.槽满率:d-绝缘导线外径d=1.14mm28.每相串联导线数:29.绕组分布系数:()()30.绕组短距系数:()31.绕组系数:二.磁路计算32.每极磁通:KE=0.923KE范围0.85-0.9533.定子齿截面积:34.转子齿截面积:bt1,bt2-定,转子齿宽35.定子轭部截面积:()36.转子轭部截面积:因无通风孔dk=037.空气隙面积:38.波幅系数:KA=1.46KS=1.276KA由饱和系数KS查得,开始计算时先假定KS39.定子齿磁密:40.转子齿磁密:41.定子轭磁密:42.转子轭磁密:43.气隙磁密:44.定子齿磁场强度:HT1=20.58A/cm(查表硅钢片磁化曲线)45.转子齿磁场强度:Ht2=20.79A/cm(查表硅钢片磁化曲线)46.定子轭磁场强度:Hj1=11.44A/cm(查表硅钢片磁化曲线)47.转子轭磁场强度:Hj2=8.43A/cm(查表硅钢片磁化曲线)48.定子齿磁路计算长度:49.转子齿磁路计算长度:50.定子轭磁路计算长度:()51.转子轭部磁路计算长度:()52.气隙磁路计算长度:t-齿距b0-槽口宽53.定子齿磁位降:54.转子齿磁位降:55.定子轭部磁位降:C1=0.504定子轭部磁路校正系数56.转子轭部磁位降:C2=0.41转子轭部磁路校正系数57.气隙磁位降:58.饱和系数:与38项比对59.总磁位降:60.励磁电流:61.励磁电流标幺值:62.励磁电抗标幺值:三.参数计算63.线圈平均半匝长度:()d=1.5cm(直线部分伸出长)k对2,4极取0.58-平均节距64.线圈端部平均长度:()65.线圈端部轴向投影长度:66.阻抗折算系数:()()式中:对笼型转子m2=Z2,,Kdp2=167.定子相电阻:-导线电阻率标幺值:68.转子导条电阻:式中:KB=1.04(对铸铝转子)-导条电阻率lB=16cm(转子导条长度)AB=0.965cm2(每根导条截面积)标幺值:69.转子端环电阻:-端环电阻系数DR-端环平均直径(10.7cm)AR-端环截面积(2.6cm2)标幺值:70.转子电阻标幺值:71.漏抗系数:()()()()72.定子槽漏磁导:KU1=1Kc1=1λU1=0.4097λc1=0.833473.定子槽漏抗:()()(对无径向通风道)74.定子谐波漏磁导:λd1=0.0129对相带整数槽绕组,且[()()]式中:c-短距槽数,c=8q1(1-p)75.定子谐波漏抗:76.定子端部漏磁导:λE1=0.67(lE-0.64)=5.677877.定子端部漏抗:()()78.定子漏抗标幺值:79.转子槽漏磁导:(槽上部漏磁导)L2=1.6754(槽下部漏磁导)80.转子槽漏抗:()()81.转子谐波漏磁导:对笼型转子:∑()K=1,2,382.转子谐波漏抗:83.转子端部漏磁导:()(对笼型转子)84.转子端部漏抗:85.转子斜槽漏抗:()()86.转子漏抗标幺值:87.运行总漏抗:四.运行性能计算88.满载电流有功分量:设=0.88效率89.满载电抗电流:[()][()]式中:90.满载电流无功分量:91.满载电动势比值:()()与32项进行比对92.定子电流:√√93.转子导条电流:√√K1-电流折算系数94.转子端环电流:95.定子电密:96.线负荷:97.热负荷:AJ1=A1J1=1402.4498.转子导条电密:99.转子端环电密:100.空载电动势比值:101.空载定子齿磁密:102.空载定子轭磁密:103.定子齿单位铁损耗:pt1由Bt10查表得104.定子轭单位铁损耗:pj1由Bj10查表的105.定子齿体积:106.定子轭体积:107.铁损耗:对半闭口槽:k1=2.5,k2=2()标幺值:108.基本铁耗:109.定子电阻损耗:110.转子电阻损耗:111.风摩损耗:Pfv*参考试验值确定为0.01112.杂散损耗:Ps*对铸铝转子可取0.02113.总损耗:∑114.输入功率:∑115.满载效率:∑与88项假定值比对116.功率因数:117.满载转差率:Pem*-气隙电磁功率118.额定转速:()()r/min119.最大转矩倍数:(√)(√)五.起动性能计算()120.起动时槽磁动势:()√121.虚拟磁密:√122.起动漏磁饱和系数:Kas=0.418123.定子槽口宽增大:()()124.转子槽口宽增大:()()125.定子槽上部漏磁导减少:()126.转子槽上部漏磁导减少:()127.起动定子槽漏磁导:()128.起动定子槽漏抗标幺值:129.起动定子谐波漏抗标幺值:130.定子起动漏抗标幺值:131.挤流转子导条相对高度:√hB-转子导条高度(cm)-转子导条宽与槽宽之比,对铸铝转子为1-转子导条电阻率hB=2.35cm132.导条电阻等效高度:()133.槽漏抗等效高度:()134.挤流电阻增大系数:()()[()]135.挤流漏抗减少系数:()()()()()()136.起动转子槽下部漏磁导:()137.起动转子槽漏磁导:()()138.起动转子槽漏抗标幺值:139.起动转子谐波漏抗标幺值:140.起动转子斜槽漏抗标幺值:141.转子起动漏抗标幺值:142.起动总漏抗标幺值:143.[()()]144.转子起动电阻标幺值:145.起动总电阻标幺值:146.起动总阻抗:√147.起动电流:148.起动电流倍数:149.起动转矩倍数:()()()AZBXCYN1,S135,36,12,3,45,6,78,9,1011,12,1314,15,16N2,S217,18,1920,21,2223,24,2526,27,2829,30,3132,33,34相带槽号磁极