Rotary Cylinder Series MRQ Size: 32, 40 1 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 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
(High pressure warning label position at 300 mm length) 19.6 25 80 x (n-1) 70 10 25 Emitter cartridge n (Number of emitter cartridges), L Dimension L(mm) 300 380 620 780 1100 1260 1500 1900 2300 n Part no. 3 4 7 9 13 15 18 23 28 (Name plate position at 300 mm length) IZS31-300 IZS31-380 IZS31-620 IZS31-780 IZS31-1100 IZS31-1260 IZS31-1500 IZS31-1900 IZS31-2300 660 A Ionizer Series IZS31 Dimensions
Bellows seal Dust free, P.3 cleaned Single acting (N.C.) XLAV-2 New New Bellows seal Dust free, Solenoid valve P.4 cleaned (With solenoid valve) XLC-2 Double acting Bellows seal Dust free, P.7 Air operated cleaned High-speed operation XLF-2 Single acting (N.C.) O-ring seal P.10 High operating cycles Solenoid valve High-speed operation Single acting (N.C.)
l (mm) 10 400 Eccentric distance l (mm) MGTL100 300 200 300 MGTM100 200 P = 0.5 MPa 100 P = 0.5 MPa Load weight m(kg) Larger than 75st Load weight m(kg) 40 50 100 Larger than 50st 50st 25st 30 25, 50st 20 50 40 10 30 5 4 3 2 20 1 10 20 30 40 50 100 200 300 1 2 3 4 5 10 20 304050 100 200 300400 Eccentric distance l (mm) 10 400 Eccentric distance l (mm) Allowable side load F(N) 1 N: Approx
Calculation D n W P t : Pad diameter (mm) : Number of pads used : Lifting force (N) : Stable vacuum pressure (kPa) : Safety factor: Horizontal pad contact: 4 (dynamic) Vertical pad contact: 8 (dynamic) Pad W D = 3.14 x P x n x t x 1000 4 1 W 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-
3 Ejector assembly ZK2 EJ A W 10 Nozzle nominal size 07 0.7 10 1.0 12 1.2 15 1.5 Bellows type with groove Flat type with groove 257 ZHP Series Dimensions 30 N 70 Silencer In the case of Flat type P 16.6 EXH. 24.7 P F E D C A PD port 3 6.2 K M Female thread mounting M Male thread mounting Unlocked: 32.2 PD port 2 Locked Unlocked J PD port 1 G H P port L E F 6.2 10 7.8 6.2 Lock screw 14.4 1.4
Plug Part Number Bore size [mm] Part number Port thread type Quantity 12 (10 x 2) 16 (12 x 2) P-M3 M3 8 20 (16 x 2) 25 (20 x 2) 32 (25 x 2) P-M5 M5 8 P-R1 Rc1/8 8 40 (32 x 2) 50 (40 x 2) 63 (45 x 2) P-N1 NPT1/8 8 P-G1 G1/8 8 P-R2 Rc1/4 8 80 (56 x 2) 100 (71 x 2) P-N2 NPT1/4 8 P-G2 G1/4 8 * 1 set includes 8 pieces.
Indication Type P. 10-20-23 Band, Rail, Tie-rod Mounting MK(2) RS Q G RS H A RZQ MI W S CEP1 P. 10-20-26 Solid State Switches CE1 CE2 General Purpose Type P. 10-20-27 Band, Rail, Tie-rod, Direct Mounting Normally Closed Type P. 10-20-37 Direct Mounting 2-color Indication Type P. 10-20-42 Band, Rail, Tie-rod, Direct Mounting 2-color Indication Type with Diagnostic Output P. 10-20-
Type P. 6-16-24 Band, Rail, Tie-rod Mounting MB1 CA2 CS1 C76 C85 C95 P. 6-16-27 Solid State Switches CP95 NCM General Purpose Type P. 6-16-28 Band, Rail, Tie-rod, Direct Mounting Normally Closed Type P. 6-16-39 Direct Mounting 2-color Indication Type P. 6-16-40 Band, Rail, Tie-rod Direct Mounting 2-color Indication Type with Diagnostic Output P. 6-16-46 Band, Rail, Tie-rod Mounting
Type P. 7-9-15 Band, Rail, Tie-rod Mounting MU D-X 20Data P. 7-9-16 Solid State Switches General Purpose Type P. 7-9-17 Band, Rail, Tie-rod, Direct Mounting Normally Closed Type P. 7-9-23 Direct Mounting 2-color Indication Type P. 7-9-25 Band, Rail, Tie-rod Direct Mounting 2-color Indication Type with Diagnostic Output P. 7-9-29 Band, Rail, Tie-rod Mounting Water Resistant 2-color
Type P. 8-30-18 Band, Rail, Tie-rod Mounting D-X 20Data P. 8-30-20 Solid State Switches General Purpose Type P. 8-30-21 Band, Rail, Tie-rod, Direct Mounting Normally Closed Type P. 8-30-31 Direct Mounting 2-color Indication Type P. 8-30-33 Band, Rail, Tie-rod Direct Mounting 2-color Indication Type with Diagnostic Output P. 8-30-39 Band, Rail, Tie-rod Mounting Water Resistant 2-
Type P. 9-15-23 Band, Rail, Tie-rod Mounting CNS CLS CLQ MLGP RLQ MLU P. 9-15-26 Solid State Switches ML1C DGeneral Purpose Type P. 9-15-27 Band, Rail, Tie-rod, Direct Mounting Normally Closed Type P. 9-15-39 Direct Mounting 2-color Indication Type P. 9-15-42 Band, Rail, Tie-rod Direct Mounting 2-color Indication Type with Diagnostic Output P. 9-15-50 Band, Rail, Tie-rod Mounting
Type P. 8-30-18 Band, Rail, Tie-rod Mounting D-X 20Data P. 8-30-20 Solid State Switches General Purpose Type P. 8-30-21 Band, Rail, Tie-rod, Direct Mounting Normally Closed Type P. 8-30-31 Direct Mounting 2-color Indication Type P. 8-30-33 Band, Rail, Tie-rod Direct Mounting 2-color Indication Type with Diagnostic Output P. 8-30-39 Band, Rail, Tie-rod Mounting Water Resistant 2-
Type P. 8-30-18 Band, Rail, Tie-rod Mounting D-X 20Data P. 8-30-20 Solid State Switches General Purpose Type P. 8-30-21 Band, Rail, Tie-rod, Direct Mounting Normally Closed Type P. 8-30-31 Direct Mounting 2-color Indication Type P. 8-30-33 Band, Rail, Tie-rod Direct Mounting 2-color Indication Type with Diagnostic Output P. 8-30-39 Band, Rail, Tie-rod Mounting Water Resistant 2-
Allowable load (N) Shock absorber ML2B40 Horizontal collision: P = 0.5 MPa 2. When the shock absorber is used within the air cushion stroke range, almost open the air cushion needle (about 1 turn from the fully closed position).
When using seal tape, leave one thread exposed when wrapping fitting or pipe. 0.1 i'--... 01 5 O~ o 0.2 0.3 0.4 0.5 0.6 0.7 08 0.9 1 00 1000 2000 Flow ra te / mi n IANR) Inlet pressure MPa AR3001-03 AR3001-03 0.6 ~ 0.5 ---'" " Jp J 0.25 '" I r~r " ::;; l' 0.2 ~ --P l' a. r< & "" & l' ::> 0.4 ~ ~ ~ 0.3 ~ -... a. ID '$'2 1-?/"(9 . "OS .
V: Power supply voltage Power consumption P: 20 [kW] Q = P = 20 [kW] P Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = 24 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)