PSxx-OMM0006CN ZS-24-B B M45 L, 2 ZS-24-D D M35 L,M45 L 2 ZS-35-C (01,N01) ZS-35-D (W1,WF1,M5,C4,C6) ZS-35-F +(01,N01) ZS-35-G +(W1,WF1,M5,C4,C6) -10No.PS-OMM0006CN-E M8(3 ) 01 N M L ISE40A 1/ 2 ISE40A -0.11.000 MPa Y ZSE40A 0.0-101.3 kPa K + T + 1 01 R1/8(M5) N01 NPT1/8(M5) A A D D N NPN1 M8 P PNP1 /M8 1 L M SI2 M8 P (psi)1 1 2kPaMPa 1 ZS-24-A A M35 L,M45 L, 2 ZS-24-D D M35 L,M45 L,
A6 A7 Note 1) Dimensions indicated with an asterisk () in the patterns A1, A3, A4 and A5 are provided in the table below.
Single Knuckle Joint I-G02/G03 Material: Rolled steel I-G04 Material: Cast iron Y-G02/G03 Material: Rolled steel Y-G04 Material: Cast iron NDH10 (Hole dia.) NDH10 MM MM L L RR1 E1 E1 A1 U1 NX NZ NX L1 NZ A Applicable bore size (mm) A A1 E1 L1 MM U1 NX NZ L Applicable bore size (mm) Applicable pin part no. Part no. NDH10 Part no.
N01 NPT1 /8 (With M5 female thread) ZSM Connector for PSE200 1 pc. ZS-26-E-4 R04 4 plug-in reducer Connector for PSE300 1 pc.
Allowable moment Wmax: Table 2 a1=W/Wa Calculate load rate a1 of static work. 3-2 Load rate of static moment Rolling Yawing Examine My My=1 X 9.8(10+30)/1000=0.39 A6=10 Examine My Calculate static moment Me (Nm).
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com F1 = x A1 x P (1) F2 = x A2 x P (2) A1 = D2 (3) 4 A2 = (D2 d2) (4) 4 F1 = Cylinder force generated on the extending side (N) F2 = Cylinder force generated on the retracting side (N) = Load rate A1 = Piston area on the extending side (mm2) A2 = Piston
F1 = X A1 X P . (1) F2 = X A2 X P . (2) 4 A1 = D2 . (3) 4 A2 = (D2 d2) . (4) F1 = Cylinder force generated on the extending side (N) F2 = Cylinder force generated on the retracting side (N) = Load rate A1 = Piston area on the extending side (mm2) A2 = Piston area on the retracting side (mm2) D = Tube bore size (mm) d = Piston rod diameter (mm) P = Operating pressure (MPa) While not
STO 13.3.4 3.2.2 MC-YOBPC-YOB STOISO/EN ISO 13849-13 PL d ISO/EN ISO 13849-1 3 PL d(X) (Y) 24 V S1 iQ EMG (Q173DSXY) CPU MC I/O B20 (MC) KM1 Q17_DSCPU MC-X00 EM2 A1 0 V CN8 B09 (MC) MC-Y0B S T O1 B1 DC 24 (MC) B19 T OFCOM V MC-X01 T OFB1 PLC I/O (PC) B19 PC-X01 T OFB2 iQ CPU (PC) B1 DC 24 V S T OCOM B09 PC-Y0B S T O2 B20 (PC) PC-X00 CN3 A1 KM1 EM2 0 V 0 V M S1STO (STO ) KM1 EMG 13
Produced upon receipt of order (Robotic cable only) Connector A B1 (Terminal no.) 1 2 5 6 A1 (14) (18) (17.7) (10.2) A6 B1 B3 A1 A3 B6 (13.5) With lock and sensor 1 2 15 16 Connector B Connector D (30.7) L (11) (14.7) Cable type (10) Robotic cable (Flexible cable) Connector A terminal no. B-1 A-1 B-2 A-2 B-3 A-3 Connector C terminal no.
Note 3) ZP3-(015/02/035)U ZP3-Y(015/02/035)U;(J/K)3-@ ZP3-Y(015/02/035)U;(J/K)6-@ ZP3B-Y1(J/K)3-B3 ZP3B-Y1(J/K)6-B3 ZP3-Y(10/13/16)UM;(J/K)3-@ ZP3-Y(10/13/16)B;(J/K)3-@ ZP3-Y(10/13/16)UM;(J/K)6-@ ZP3-Y(10/13/16)B;(J/K)6-@ ZP3-Y(10/13/16)UM;(J/K)10-@ ZP3-Y(10/13/16)B;(J/K)10-@ ZP3-Y(10/13/16)UM;(JB/K)15-@ ZP3-Y(10/13/16)B;(JB/K)15-@ ZP3-Y(10/13/16)UM;(JB/K)20-@ ZP3-Y(10/13/16)B;(JB/K)20-@
Assembly example qResidual pressure relief 3 port solenoid valve VP517Y-5DZ1 1 pc. wAir combination AC30C-03DG 1 pc. eSpacer with bracket Y300T-A1 pc. tPiping adapter *1 *2 rSpacer Y300-A1 pc. tPiping adapter E300-03-A1 pc. q Residual pressure relief 3 port solenoid valve Applicable Combinations/Attachment Part Nos.
-XC47 to -XC58 S, W, Y -XC59 to -XC61 Change of port direction S, W, X, Y Z, T, J, K -X7* Heat resistant type (100C) S, W, X, Y Z, T, J, K Angle adjusting screw -X16 Fluororubber seal S, W, X, Y Z, T, J, K -X10 Both sides angle adjustable S, W, X, Y Z, T, J, K 0 0 9 0 y 1 a y A port B port w a y n w e -X11 One side angle adjustable, One side with cushion io k y of e S, W, X, Y Z, T, J, K
KFG2H0122-N01 KFG2H0122-N02 KFG2H0325-N01 KFG2H0325-N02 KFG2H0704-N01 KFG2H0704-N02 KFG2H0906-N01 KFG2H0906-N02 KFG2H0906-N03 KFG2H1163-N02 KFG2H1163-N03 KFG2H1163-N04 KFG2H1395-N02 KFG2H1395-N03 KFG2H1395-N04 KQ2 16.2 19.4 16.2 19.4 17.9 21.1 20.1 22.3 23.6 25.3 25.6 27.1 27.1 27.2 28.7 1/8 1/4 1/8 1/4 1/8 1/4 1/8 1/4 3/8 1/4 3/8 1/2 1/4 3/8 1/2 12 14 12 14 12 14 19.4 23.8 19.4 23.8 21.1
1 r t y !2 e !4 !5 !4 !5 !
AV Regulating pressure range AU Ambient and operating temperature range Weight AF Model AR Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Port size Model IR IN OUT ARJ310-01 ARJ310-N01 ARJ310F-01-04 ARJ310F-01-06 ARJ310F-N01-03 ARJ310F-N01-07 Rc 1/8 R 1/8, M5 x
Bore A1 L L1 MM Part No. B H B H d C C d 10 8 21 M4 X 0.7 16.2 Y-J010B SNJ-006B 16 11 21 M5 X 0.8 16.6 Y-J016B M6 X 1.0 4 8 9.2 6 NTJ-006A 2.4 M3 X 0.5 6.4 5.5 6 SNJ-010B M8 X 1.0 4 11 12.7 10 NTJ-010A 3.2 M4 X 0.7 8.1 7 10 Part No.
r G;-:--t tL , y\a :-/Fr .
Component Parts No. q w e r t y u No. i o !0 !1 !2 !3 !
M1 m1 x g x X m2 x g x X m4 x g x Z M1 Static moment z y Y m1 x g x Y m2 x g x Y m3 x g x Z M2 Z m3 x g x X m4 x g x Y M3 m4 x g Note) m4 is a mass movable by thrust.
L2 B1 Pitch moment Mp=W (L1 + A) A1: Correction value for moment center distance Yaw moment My=W (L2 + B) Roll moment Mr=W (L3 + C) (mm) B1: Correction value for moment center distance C1: Correction value for moment center distance 39 48 58 75 97 MXW 8 MXW12 MXW16 MXW20 MXW25 L3 C1 (mm) (mm) L1 A1 MXW 8 MXW12 MXW16 MXW20 MXW25 10 10 14 20 28 23 29 37 49 63 MXW 8 MXW12 MXW16 MXW20 MXW25 Mr