Output Specification: IO-Link/Switch: 1 Output, PNP or NPN, Unit Specification: Unit Selection Function, Piping Specification: N01 (NPT1/8), Connector Type: S (M12 Connector Type), Bracket: A4 [Bracket D for M12 Connector Type (ZS-46-A4)]
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,
A Y PNP2 A3 C R NPN2+1 B T PNP2+1 E S NPN2+1 D + V PNP2+1 1: F + 4 2 M SI3 1 P psi2 2 3 kPaMpa (2m ) W 2 R1/4 C01 Rc1/8 N02 NPT1/4 A2 URJ1/4 L F02 G1/4 B2 TSJ1/4 2 2 () L() A A1 ZS-46-A1 C A3 ZS-46-E B ZS-46-B E ZS-35-B D ZS-46-D + F ZS-35-E -9No.PS-OMU0008CN-D / A ZS-46-A1 38L(2 ) C ZS-46-E 310L(2 ) ZS-46-B ZS-35-B ZS-46-D + ZS-35-E ZS-46-5F 5 2 m ZS-27-01
All dimensions in mittimeiers. 26 I Non-Adjustable Hydraulic Series lmperial Accessories sroP BAR (SB) ['l E -T I c __l _ l F --->l nr tdl o&| (n.ll A I ( D T I Boh Sire W.hhi r5&706300 Pll500 5odo5 l s t T 2 i t I 1 . 6 3 l . l l I l l I l l 6 r r f f r l k " D s ? l y t . I 6 . 1 158650300 PM?
m Dd9 L (Drill through) 3 x 18 l 4 x 25 l 4 x 35 l 4 x 36 l 0.040 0.076 CD-M03 CD-M05 CD-M08 CDP-7A 10 14 22 25 20, 25 32, 40 50, 63 80 3 4 4 4 4 4.5 5 5 36 51 72 78 44 60 82 88 0.050 0.093 0.065 0.117 0.065 0.117 l m L Note) When using cotter pins, flat washers are used together.
CN5: Parallel l/O Connector 4.1 Parallel I/O signals (changed) Parallel input / output signal functions can be switched using the MODE input (terminal No. A8). Functions when the MODE input is OFF and ON are explained as follows. I/Ocable B1 A1 A1 A13 B1 B13 B13 A13 Connector for CN5 of the controller The end to be connected to a PLC, etc. (1) When the MODE input (Terminal No.
3000 L/min 6000 L/min 12000 L/min 30 L/min 3000 L/min PF3A703H 3150 L/min 30 L/min 0 L/min 3150 L/min 60 L/min 6000 L/min PF3A706H 6300 L/min 60 L/min 6300 L/min 0 L/min 120 L/min 12000 L/min 12600 L/min 12600 L/min PF3A712H 120 L/min 0 L/min Rated flow range Set point range Display range Analog Output Output Output Flow/Analog Output 0 L/min A*2 B Voltage output (1 to 5 V)*1 1 V 1.04 V
C0.5 file chamfer C WA DA F L X L R sphere F X X L R sphere TP H1 L T W1 L T L W1 L L 6-17-10 6-17-11 10 Simple Specials -XA1 to XA38: Change of Rod End Shape These changes are dealt with Simple Specials System.
Select the graph that corresponds to the imaginary stroke l. l k Imaginary stroke l = (Stroke) + k + l k: Distance between the center and end of the plate 6 (Example) 1. When using CXSJM6-10 and l = 15 mm: Imaginary stroke l = 10 + 2.75 + 15 = 27.75 Therefore, the graph used for your model selection should be the one for CXSJM6-30 (6) ). 2.75 mm 10 4 mm 15 5 mm 20 6 mm 25 2.
Select the graph that corresponds to the imaginary stroke l. l k Imaginary stroke l = (Stroke) + k + l k: Distance between the center and end of the plate 6 (Example) 1. When using CXSJM6-10 and l = 15 mm: Imaginary stroke l = 10 + 2.75 + 15 = 27.75 Therefore, the graph used for your model selection should be the one for CXSJM6-30 (6) ). 2.75 mm 10 4 mm 15 5 mm 20 6 mm 25 2.
4 83 73 5 4 x 30 l Polished round 20 CDP-7A 100 250.065 0.117 4 88 78 5 4 x 36 l Polished round 24 Dd9 m l L * Split pins and flat washers are included.
T K ZZ + l + Stroke h + l C FT BN N CLS B H M S + Stroke ZZ + Stroke CLQ Long stroke (50 to 100) 4-FD MLGP RLQ MLU FY BF RY e d ML1C 8 f l ZZ + Stroke Z FT RT DFZ FX ZZ + l + Stroke h + l -X 20Bore size (mm) Stroke range (mm) A AL B B1 BF BN BP BQ C D E FD FT FV FX FY FZ GA GB GC GD GL GL1 GR H1 J 40 50 63 80 100 30 27 60 22 71 96 1/8 1/8 44 16 32 9 12 60 80 42 100 85 15 52 16 12 12 10 8
T K ZZ + l + Stroke h + l C FT BN N CLS B H M S + Stroke ZZ + Stroke CLQ Long stroke (50 to 100) 4-FD MLGP RLQ MLU FY BF RY e d ML1C 8 f l ZZ + Stroke Z FT RT DFZ FX ZZ + l + Stroke h + l -X 20Bore size (mm) Stroke range (mm) A AL B B1 BF BN BP BQ C D E FD FT FV FX FY FZ GA GB GC GD GL GL1 GR H1 J 40 50 63 80 100 30 27 60 22 71 96 1/8 1/8 44 16 32 9 12 60 80 42 100 85 15 52 16 12 12 10 8
A1 E1 L1 NDH10 Part No. Tube dia. (mm) A A1 E1 L1 MM U1 NX NZ L R1 R Part No.
L k Imaginary stroke L' = (Stroke) + k + L k: Distance between the center and end of the plate 6 (Example) q When using CXSJM6-10 and L = 15 mm: Imaginary stroke L' = 10 + 2.75 + 15 = 27.75 Therefore, the graph used for your model selection should be the one for CXSJM6-30 6 ). 2.75 mm 10 4 mm 15 5 mm 20 6 mm 25 w When using CXSJL25-50 and L = 10 mm: Imaginary stroke L' = 50 + 6 + 15 = 71
L k Imaginary stroke L' = (Stroke) + k + L k: Distance between the center and end of the plate 6 (Example) q When using CXSJM6-10 and L = 15 mm: Imaginary stroke L' = 10 + 2.75 + 15 = 27.75 Therefore, the graph used for your model selection should be the one for CXSJM6-30 6 ). 2.75 mm 10 4 mm 15 5 mm 20 6 mm 25 w When using CXSJL25-50 and L = 10 mm: Imaginary stroke L' = 50 + 6 + 15 = 71
T1 = V/a1 = 1000/2500 = 0.4 [s], T1 T2 T3 T4 11LEJS T3 = V/a2 = 1000/2500 = 0.4 [s] L: Stroke [mm](Operating condition) V: Speed [mm/s](Operating condition) a1: Acceleration [mm/s2](Operating condition) a2: Deceleration [mm/s2](Operating condition) T = T1 + T2 + T3 + T4 [s] L 0.5V(T1 + T3) V 25AT2 = T1: Acceleration time and T3: Deceleration time can be obtained by the following equation
L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be found by the following equation.