ABSTRACTThe design is based on the body parts of the processing order of the processes and some special fixture design. Body parts of the main plane of the surface and pore system. In general, the plane guarantee processing precision than that of holes machining precision easy. Therefore, this design follows the surface after the first hole principle. Plane with holes and the processing clearly divided into roughing and finishing stages of holes to ensure machining accuracy. Datum selection box input shaft and the output shaft of the supporting hole as a rough benchmark, with top with two holes as a precision technology reference. Main processes arrangements to support holes for positioning and processing the top plane, and then the top plane and the supporting hole location hole processing technology. In addition to the follow-up processes individual processes are made of the top plane and technological hole location hole and plane processing. Supported hole processing using the method of coordinate boring. The whole process of processing machine combinations were selected. Selection of special fixture fixture, clamping means more choice of pneumatic clamping, clamping reliable, institutions can not be locked, so the production efficiency is high, suitable for large batch, line processing, can meet the design requirements.Key words: Angle gear seat parts; fixture; (I)ABSTRACT (II)1 (1)1.1 (1)1.1.1 (1)1.1.2 (1)1.2 (2)1.2.1 (2)1.2.2 (2)1.3 (3)1.3.1 (3)1.3.2 (3)1.4 (4)1.5 (6)1.6 (6)1.7 (7)2 (18)2.1 (18)2.2 (18)2.3 (20)2.4 (20)2.5 (21)2.6 (22)2.7 (24) (25) (26) (28)11.11.1.111.1.21 35mm 35mm Ra 2.3m2 160mm 160mm 105mm mRa2.33 20mm1.21.2.11.2.211.31.3.1121.3.21.4c 90800.4%—1.1% 0.25%—0.5% mg 200102030 35mm40 160mm50 105mm60 20mm70 V8090100110102030 35mm40 160mm50 105mm60 V70 20mm8090100110102030 35mm40 160mm50 105mm60 20mm70 V80901001101.5(1)HT200(2)2.2-5 “ ” HT200 HB 170—24111 3.2.23mm 4.3~7.1 mm 0.2 3.2.27 mm 28.02.3.59 mm 1 21 3.2.23mm 4.3~7.1 mm 0.2 3.2.27 mm 28.02.3.59 mm 1 CT7 2.3.9 mm 6.11.6mm , 0 1000mm [2] 6—7CA6140 [2] 4—3 [2] 2 360° [4] 61.710 2030. 35mmHT200 CA6140YG61.1 CA6140 200mm 1.30 H B =mm mm 2516 mm 5.4 0V =012 0 =06 v K =090 'v K =010 s =00 s r =mm 8.0. pa mm 2. f1.4mm 16mm 25 p a mm 4 100 400f =0.5 1.0rmm CA6140 4.2—9f =0.7rmm 1—30 CA6140 max F =3530N1.21 174 207HBS p a mm 4 f 75.0 r mm r K =045 R F =950Nf F roFf K =1.0 sFf K =1.0 krFf K =1.17 1.29—2f F =95017.1 =1111.5N 1-2f =r mm 7.0.1.9mm 5.1 T =min 60. 0V1.11 6YG 200 219HBS p a mm 4 f r mm 75.0 V =min 63mtv K =1.0 mv K =0.92 sv K 0.8 Tv K =1.0 Kv K =1.0 1.28'0V =t V v K =63 0.10.184.092.00.10.1 1-3min48m n =D V c '1000=127481000 =120min r 1-4 CA61400n =125minr c VcV =1000c Dn =1000125127 min50m 1-5.1.25 HBS =160 245 p a mm 3 f r mm 75.0 min 50m VC P =KW7.1 krPc k =0.73 Pc r K 0=0.9C P =1.773.0 =1.2KW 1-6 1.30 n =min 125r E P =KW 9.5 C P E P C620—1p a =3.75mm f =r mm 7.0 n =min 125r =s r 08.2 V =min 50m 40. 160mmHT200 CA6140YG61.1 CA6140 200mm 1.30 H B =mm mm 2516 mm 5.4 0V =012 0 =06 v K =090 'v K =010 s =00 s r =mm 8.0. pa mm 2. f1.4mm 16mm 25 p a mm 4 100 400f =0.5 1.0rmm CA6140 4.2—9f =0.7rmm 1—30 CA6140 max F =3530N1.21 174 207HBS p a mm 4 f 75.0 r mm r K =045 R F =950Nf F roFf K =1.0 sFf K =1.0 krFf K =1.17 1.29—2f F =95017.1 =1111.5N 1-2f =r mm 7.0.1.9mm 5.1 T =min 60. 0V1.11 6YG 200 219HBS p a mm 4 f r mm 75.0 V =min 63mtv K =1.0 mv K =0.92 sv K 0.8 Tv K =1.0 Kv K =1.0 1.28'0V =t V v K =63 0.10.184.092.00.10.1 1-3min48m n =D V c '1000=127481000 =120min r 1-4 CA61400n =125minr c Vc V =1000c Dn =1000125127 min 50m 1-5 .1.25 HBS =160 245 p a mm 3 f r mm 75.0 min 50m VC P =KW7.1 krPc k =0.73 Pc r K 0=0.9 C P =1.773.0 =1.2KW1-61.30 n =min 125r E P =KW 9.5 C P E P C620—1p a =3.75mm f =r mm 7.0 n =min 125r =s r 08.2 V =min 50m 50 105mmYG6 1.1 C6140 200mm 1.30 H B =mm mm 2516 mm 5.4 0V =012 0 =06 v K =090 'v K =010 s =00 s r =mm 8.0. pa mm 5.2p a =25.2=mm 25.1 . f1.4mm 16mm 25 p a mm 4 100 400f =0.5 1.0rmm CA6140 4.2—9f =0.7rmm 1—30 CA6140 max F =3530N1.21 174 207HBS p a mm 4 f 75.0 r mm r K =045 R F =950Nf F roFf K =1.0 sFf K =1.0 krFf K =1.17 1.29—2f F =95017.1 =1111.5Nf =r mm 7.0.1.9mm 5.1 =min 60. 0V1.11 15YT 200 219HBS p a mm 4 f r mm 75.0 V =min 63mtv K =1.0 mv K =0.92 sv K 0.8 Tv K =1.0 Kv K =1.0 1.28'0V =t V v K =63 0.10.184.092.00.10.1 3-12min48m n =D V c '1000=127100048 =120min r 3-13 CA61400n =125minr c Vc V =1000c Dn =1000125127 min 50m 3-14 .1.25 HBS =160 245 p a mm 3 f r mm 75.0 min 50m VC P =kw7.1 krPc k =0.73 Pc r K 0=0.9C P =1.773.0 =1.2kw1.30 n =min 125r E P =kw 9.5C P E P CA6140p a =1.25mm f =r mm 7.0 n =min 125r =s r 08.2 V =min 50m .nf lt 3-15L =l +y + l =mm127 1.26 y + =mm 1 L =126+1=mm128m t =7.0125127 =min 4.1 60 20mmZ525[3] 4.3 9 209H 209H 17 19.7 17D mm p a 8.5p a mmf [3] 2.4 38 r mm f /33.0V [3] 2.4 41 0.48/V m sn100010000.4860539.53/min 3.1417v n r d [3] 3.1 31 630/minn r v 3.14176300.56/1000100060dn v m sl 42l mm1l 117(1~2)1201 5.9622r D l ctgk ctg mm mm 2l mml 4~12 mml 3211j t 142630.25min 0.33630j L t fn209H [3] 4.3 31E403209H 17 19.7 19.7D mm 117d p a 1.35p a mmf [3] 2.4 52 0.6/f mm rV [3] 2.4 53 0.44/V m sn100010000.4460426.78/min 3.1419.7v n r D[3] 3.1 31 500/minn r v 3.1419.75000.52/1000100060dn v m sl 42l mm1l 1119.717(1~2)1202 2.86322r D d l ctgk ctg mm mm 2l mml 4~12 mm l 32 12j t 242330.16min 0.6500j L t fn209H [3] 4.3 54 p a 0.15p a mm 20D mmf [3] 2.4 58 r mm f /0.2~0.1 r mm f /0.2V [3] 2.4 60 s m V /32.0n100010000.3260305.73/min 3.1420V n r D[3] 3.1 31 315/minn r v 3.14206000.63/1000100060Dn v m sl 42l mm1l 012019.7(1~2)1202 2.0922r D d l ctgk ctg mm 2l mml 4~12 mm l 32 13j t 342 2.0930.07min 2315j L t nf j t 0.250.160.070.48minj t 70 VYG61.1 C6140 200mm 1.30 H B =mm mm 2516 mm 5.4 0V =012 0 =06 v K =090 'v K =010 s =00 s r =mm 8.0. pa mm 5.2p a =25.2=mm 25.1 . f1.4mm 16mm 25 p a mm 4 100 400f =0.5 1.0rmm CA6140 4.2—9f =0.7rmm 1—30 CA6140 max F =3530N1.21 174 207HBS p a mm 4 f 75.0 r mm r K =045 R F =950Nf F roFf K =1.0 sFf K =1.0 krFf K =1.17 1.29—2f F =95017.1 =1111.5Nf =r mm 7.0.1.9mm 5.1 =min 60. 0V1.11 15YT 200 219HBS p a mm 4 f r mm 75.0 V =min 63mtv K =1.0 mv K =0.92 sv K 0.8 Tv K =1.0 Kv K =1.0 1.28'0V =t V v K =63 0.10.184.092.00.10.1 3-12min48m n =D V c '1000=127100048 =120min r 3-13 CA61400n =125minr c Vc V =1000c Dn =1000125127 min 50m 3-14.1.25 HBS =160 245 p a mm 3 f r mm 75.0 min 50m VC P =kw7.1 krPc k =0.73 Pc r K 0=0.9C P =1.773.0 =1.2kw1.30 n =min 125r E P =kw 9.5 C P E P CA6140p a =1.25mm f =r mm 7.0 n =min 125r =s r 08.2 V =min 50m .nflt 3-15m t =7.0125127 =min 4.122.1V1T22.2121) D 140mm D (2 3)d 1-a2)1-b H7/h6 H7/js6 H7/h6 H7/js61-c 1-d 0.05 0.1mm12.3FX,Y,Z X,Y Z2.41.2.3.4.FK W K K6543210K K K K K K K K 60~K K [5] 1211.2 1.0 1.0 1.0 1.3 1.0 1.0 1.56C K 1.2 1.2 1.05 1.2 1.3 1.0 1.0 2.36P K 1.2 1.2 1.0 1.2 1.3 1.0 1.0 2.25f K 1193.08()K C C W K F N 766.37()K P P W K F N 1359.90()K f f W K F N)(210 tg tg QL W z [5]6.22 2.76z r 901 0592 '229 )(80N Q 04748.2()W N2.5D J A G1 DC B Y D2 JC 0.01.3 A4 GG =K /3=0.05/3=0.017mm22A 2J 2D G0262.0017.0002.00220238.00262.005.0 C J2.6123452.71231234[1] 1982. (1)[2] [M] 1984 20-23[3] [M] 1983 42-50[4] [ ] 1992[5] 1 [M] 1991[6] [M] 1979[7] [M] 1990[8] [M] 1994[9] [M] 1984[10] [M] 2002[11] , ( ) [M], ,2004.5[12] [M] 1995[13] [M] 1980[14] [M] 1991[15] [M] 2000 9-19[16] , , , ,1979.12[17] 2005 4-17[18] Machine Tools N.chernor 1984.[19] Machine Tool Metalworking John L.Feirer 1973.[20] Handbook of Machine Tools Manfred weck 1984 .[21] Sors l.fatigue design of machine components.oxford:pergramon press.197143!28。