7 2 x Speed controller valve Top width across flats 3 20 17 30 45 W 10 45 14 11.5 3 M16 x 1.5 45 Hs 30 IA IB 40 35 20 38 Width across flats 17 4 x M6 Thread depth 12 F R15 0.050 d90.093 +0.027 H8 0 Shaft: 12 Hole: 12 97 78 + Stroke 190 + Stroke Clevis width CKG1A: 16.5 CKG1B: 19.5 CKG1C: 12.5 Unit: mm +0.3 0 +0.4 0 +0.5 0 Symbol F IA IB N S W Hs Bore size 40 50 63 45.5 5 53 52 47 52 44 40
27 3 31 104 10 38 65 14 83 30 22 16 13 46 91 14 Up to 1000 50 11 120 9 1/4 65 75 32 2 38.5 120.5 12 46.5 77 15.5 100 35 27 20 14 52 104.5 18 Up to 1000 63 11 135 9 75 1/4 90 32 2 39.5 134.5 12 56.5 92 16.5 115 35 27 20 14 62 119.5 18 Up to 1000 80 13 153 12 1/4 95 102 37 4 45.5 169 16 72 100 19 126 40 32 25 20 63 150 22 Up to 1000 100 16 178 1/4 14 116 114 37 4 54 189 16 89 120 19 150 40
27 3 31 104 10 38 65 14 83 30 22 16 13 46 91 14 Up to 1000 50 11 9 120 1/4 75 65 32 2 38.5 120.5 12 46.5 77 15.5 100 35 27 20 14 52 104.5 18 Up to 1000 63 11 9 135 75 1/4 90 32 2 39.5 134.5 12 56.5 92 16.5 115 35 27 20 14 62 119.5 18 Up to 1000 80 13 153 12 1/4 95 102 37 4 45.5 169 16 72 100 19 126 40 32 25 20 63 150 22 Up to 1000 100 16 178 1/4 14 116 114 37 4 54 189 16 89 120 19 150 40
1/2 34 3(R) 3(R) PA NO NC 112 (Mounting hole) 2-8.5 40 PA 52 119.5 112.5 86 1(P) 119.5 24 52 PA (P port) Rc 1/2 (Pitch) 41 37 (PA port) Rc 1/8 112.8 8 L2 L1 (PA port) Rc 1/8 PA 86.3 78.3 2(A) 2(A) 63 19 Rc 1/2 n: Station n L L1 L2 Formula L1 = 41 x n + 33 L2 = 41 x n + 17 9 402 386 10 443 427 2 115 99 3 156 140 4 197 181 5 238 222 6 279 263 7 320 304 8 361 345 5-5-24
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com 18 ZL ZY ZQ (mm) Model A 40 ZPT40H-B8 C M8 x 1.25 40 ZPT40H-B10 42 M10 x 1.5 B 42 ZF (mm) B 42 50 ZPT50H-A14 52 Model A 40 ZPT40H-A14 ZP 50 ZPT50H-B8 52 M8 x 1.25 50 ZPT50H-B10 52 M10 x 1.5 ZCU AMJ 63 80 ZPT H-B (Female thread) 63 80 ZPT 6380H-A16 (Male
Supply pressure verification Leak test P2(n1) > P1(n2) P2(n2) P1(n1) 10.0 to 101.0kPa CH Increases the set value 1 2 3 4 PRESSURE For normally closed P2(n1) > P1(n2) P2(n2) P1(n1) 0.1 to 1000.0MPa Decreases the set value SET P3(n3) and P4(n4) are the same as P1(n1) and P2(n2).
OUT2 P2(n2) P1(n1) Supply pressure verification Leak test CH P2(n1) > P1(n2) 10.0 to 101.0 kPa Increases the set value 1 2 3 4 PRESSURE For normally closed P2(n2) P1(n1) P2(n1) > P1(n2) 0.1 to 1000.0 MPa Decreases the set value SET P3(n3) and P4(n4) are the same as P1(n1) and P2(n2).
Supply pressure verification Leak test P2(n1) > P1(n2) P2(n2) P1(n1) 10.0 to 101.0kPa CH Increases the set value 1 2 3 4 PRESSURE For normally closed P2(n1) > P1(n2) P2(n2) P1(n1) 0.1 to 1000.0MPa Decreases the set value SET P3(n3) and P4(n4) are the same as P1(n1) and P2(n2).
Supply pilot air higher than 0.25 MPa to P1 port Piping Inlet side (supply side): P port, Outlet side (exhaust side): A port Supply pilot air higher than 0.25 MPa to P1 port. PA VNH 12(P1) 12(P1) Nozzle 2(A) 1(P) PAX Nozzle 1(P) 2(A) 3(B) Stop valve Tank Coolant pump PB Tank Coolant pump For reducing load to pump, coolant liquid is returned from B port to tank each time.
Working Principle: Air Operated Type (PAF3413, 5413) Air supply port (AIR SUP) 5 port solenoid valve External solenoid valve P1 P2 Discharge port (FLUID OUT) Drive unit Pump chamber B Pump chamber A Check valve Shaft Suction port (FLUID IN) Drive chamber A Drive chamber B Diaphragm B Diaphragm A 1. When air is supplied to P1 port, it enters drive chamber A. 2.
1.5 44 78 (87) 130 (139) 50 18 M18 x 1.5 55 90 (102) 150 (162) 63 18 M18 x 1.5 69 90 (102) 150 (162) 80 22 M22 x 1.5 86 108 (122) 182 (196) 100 26 M26 x 1.5 106 108 (122) 182 (196) 20 30 18 55 27 15.5 10.5 126 (134) 25 30 19 62 32 16.5 10.5 133 (141) 32 35 19 62 38 18.5 10.5 135 (143) 40 35 19 70 48 21.5 10.5 150 (159) 50 40 19 78 59 24 10.5 170 (182) 63 40 20 78 72 24 10.5 170 (182) 80 52
ML2B C J G5-S (Refer to page 10-2-52.) Review of operating conditions > 1 CV Determination of load factor () Load weight (W) Static moment (M) Dynamic moment (Me) = + + Max. load weight (Wmax) Allowable static moment (Mmax) Allowable dynamic moment (Memax) MVGQ 1 CC (Refer to data (B) on page 10-2-52.)
65 77 90 115 140 165 36 18.2 32 72 85 97 110 135 160 185 12.5 25 37.5 50 75 100 125 52 65 77 90 115 140 165 36 18.2 40 77 90 102 115 140 165 190 12.5 25 37.5 50 75 100 125 54 67 79 92 117 142 167 46 20.2 Built-in One-touch fitting With rod boot With air cushion (mm) Symbol Bore ZZ Bore WA G N1 WB P Q Stroke 1 to 50 17.5 13 8 8.5 6 23 20 20 Bore 51 to 100 101 to 150 151 to 200 201 to 300
104 38 16 13 31 9 3 10 83 46 101 91 1/8 40 14 65 63 14 27 to 1000 35 27 11 65 120.5 46.5 20 14 38.5 9 2 12 100 52 120 104.5 1/4 50 15.5 77 75 18 32 to 1000 35 27 11 75 134.5 56.5 20 14 39.5 9 2 12 115 62 135 119.5 1/4 63 16.5 92 90 18 32 to 1000 40 32 13 95 169 72 25 20 45.5 12 4 16 126 63 153 150 1/4 80 19 100 102 22 37 to 1000 40 41 16 114 189 89 30 20 54 14 4 16 150 75 178 170 1/4 100
-51-15A SX3000-52-1A SUP/EXH block assembly w End block assembly R e M3 x 30 (Matt nickel plated) SX3000-22-2 (M2 x 24) Round head combination screw t Refer to page 1-6-77. y Gasket SX3000-57-4 SX5000-57-6 VZ1000-11-1DIN rail u How to Change Fitting Assembly How to Increase Manifold Bases Station expansion is possible at any position.
Applicable Applicable Model D1 L1 L2 P Q A M Minimum Tube OD Fitting Size Hole Applicable Applicable Model D1 L1 L2 P Q A M Effective Tube OD mm Fitting Size Orifice (mm2) Inch d Diameter d Nylon/Urethane 1/8 3.2(1/8) KQU01-99 9.6 52 17.5 9.6 9 36.5 15.5 2 3.2 3.2 KQU23-99 9.6 52 17.5 9.6 9 36.5 15.5 3.4/2.9 5/32 4(5/32) KQU03-99 10.4 53 18 10.4 9.7 37 16 2.5 4 4 KQU04-99 10.4 53 18 10.4
ML2B C J G5-S (Refer to page 10-2-52.) Review of operating conditions > 1 CV Determination of load factor () Load weight (W) Static moment (M) Dynamic moment (Me) = + + Max. load weight (Wmax) Allowable static moment (Mmax) Allowable dynamic moment (Memax) MVGQ 1 CC (Refer to data (B) on page 10-2-52.)
Set value input mode Press the "SET" button to display "P1-20" 1. The output OUT1(1) set value input mode is selected. 1: The set value of P1 is -20 ZSE3/ISE3(L) kPa RESET SET LED Bottom hold mode Pressing the button when pressure is displayed enables the lower limit peak value (value with low vacuum) to be held. In this case "d" is displayed on the LCD.
SGH Ex. 2) 3 port valve: Switching nozzle 12 VNC VNH Port 12(P1) (Pilot air SUP port) Nozzle Port 12(P1) (Pilot air SUP port) 3 1 2 VNH VNH Tank Coolant pump VND Switching nozzles on supplying coolant liquid.
Type (mm) 1in = 25.4mm PA3000 115 68 85 105 4-7 7.5 FLUID OUT 3/8 5.5 AIR SUP (P1) 1/4 FLUID OUT PROCESS PUMP P1 2 90 74.5 FLUID I N P2 44.5 3 AIR SUP (P2) 32 1/4 100 130 FLUID IN 3/8 PA5000 179 4-9 90 90 FLUID OUT 1/2, 3/4 AIR SUP (P1) 1/4 112 56 165 56 RESET PROCESS PUMP FLUID OUT 167 P1 132.5 FLUID I N 125.5 103.5 P2 58.5 48.5 202 114 3.5 3 AIR SUP (P2) FLUID IN 1/2, 3/4 1/4 10 Series