AS-FPQ/AS-FPG 5 15-17-5 6 Series AS-FPQ/FPG Dimensions H (width across flats) Applicable tubing O.D. d A L4 D1 L3 D2 M1 L1 L2 T M5 type H (width across flats) Applicable tubing O.D. d A A4 D1 L3 D2 M1 L1 T L2 Model Weight (g) Note 2) Tubing O.D. d T H D1 D2 L1 L2 L3 M1 L4 Max. Min. Max. 1 2 Min.
.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com Chloroprene rubber (CR) (Standard), Fluoro rubber (FKM), Silicon rubber (Si) Dust cover material MHS Model MHC Series MHK/Standard Type Width at closing (mm) L1 Width at opening (mm) L2 Note) Opening/Closing stroke (mm) L2L1 Max. operating frequency (
+ A1) A1: Moment center position distance compensation amount B1: Moment center position distance compensation amount (mm) C1: Moment center position distance compensation amount L3 C1 MXW8 MXW12 MXW16 MXW20 MXW25 39 48 58 75 97 (mm) (mm) MXW8 MXW12 MXW16 MXW20 MXW25 23 29 37 49 63 L1 A1 MXW8 MXW12 MXW16 MXW20 MXW25 10 10 14 20 28 Mr My Mp W L2 B2 W W C2: Moment center position distance
L2 T M5 type H (width across flats) Applicable tubing O.D. d A A4 D1 L3 D2 M1 L1 T L2 Model Weight (g) Note 2) Tubing O.D. d T H D1 D2 L1 L2 L3 M1 L4 Max.
equation M = 0.66n + 0.75 (kg) n: Station VVSA430N Dimensions (mm) n L L2 256 L1 214 2 stations 326 284 3 stations Pilot hole 396 354 4 stations 466 424 5 stations 70n + 116 70n + 74 n stations VSA4130, VSA4230 VSA4330, VSA4430 Applicable valve 4-10.5 mounting hole Manifold weight general equation M = 0.87n + 0.95 (kg) n: Station VVSA440N Dimensions (mm) n L L2 307 L1 257 2 stations 394
Yes No Note 3) Note 1) Yes WB x L1 MD (Refer to page 6 for body non-rotating accuracy and maximum allowable moment.) Intermediate stop? Determination of rotating moment No Stop with external stopper Stop with air pressure circuit Intermediate stopping method WB x L1 MD Refer to page 6 for intermediate stops.)
L2 T M5 type H (width across flats) Applicable tubing O.D. d A A4 D1 L3 D2 M1 L1 T L2 Model Weight (g) Note 2) Tubing O.D. d T H D1 D2 L1 L2 L3 M1 L4 Max.
Applicable bore size (mm) L1 Part no.
UNF Weight (g) 10-32 UNF D1 D2 L2 A L1 Nylon Urethane KSL03-34S KSL03-32 8 10-32 UNF 9 14 17 23 23 29 56 64 20.5 22 22 23.5 23 25.5 26 26.5 5 32 16 2.5 10.4 3.5 3.5 12 21 1 8 12.7 1 8 1 4 KSL07-34S 14.29 17 1 4 4 13.2 8.6 8.6 23.5 14 KSL07-35S KSL09-34S KSL09-35S KSL11-35S KSL11-36S 1 8 26.5 30 18.5 5 16 1 4 1 4 3 8 21.6 14.9 6 15.2 17.46 26 17 29.5 31 34 37 35 38 22.23 3 8 30.5 25.0 7 17.9
Load (kg) m1 m2 m3 Moment (Nm) M3 = F3 x L3 F3 M1 = F1 x L1 F1 M2 = F2 x L2 F2 L1 L2 L3
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
POTiS J inch(mm) n: stations L t 4 5 7 I 'to Equation L1=1.lOxn+1.85 (L r= 28 x n +47) Lr:1.1Oxn+2,2O (L,:28 x n +56) Lr (75) 4.06 (r03) 5.16 (131) 6,26 fl59) 7.36 (187) 8.46 (2|5) 9.57 \243) 10.67 (271) 11.77 (299) 12.87 (327) Lr 3.31 (84) 4.41 (112) (140) 6.61 (r68) 7.72 (196) s.a2 \224) 9.92 (252) 1t.02 (280) 12.13 (308) 13.23 (336) Series NVFRz000:Base Mounted Tlzpe Manifold Ptug-in
Nylon Urethane L1 L2 M 1 4 1 4 3 8 3 8 3 8 KCE04-02 KCE06-02 KCE08-03 KCE10-03 KCE12-03 2.6 32 36 42 79 105 2.6 6.8 16.2 25.6 35.4 M12 1 M14 1 M16 1 M20 1 M22 1 40.5 42.7 49.4 53.9 56.1 14 17 19 24 27 17 17 19 22 24 14.7 14.7 15 14.2 13.7 13 15 17 21 23 18 19 21.5 24 25.5 6.8 13.1 20.4 30.4 Straight: KCH Applicable tube O.D.
[1] Power supply input terminals, L1, L2: Provide specified power supply to input terminals L1 and L2. [2] Connect the motor input terminal (U, V, W) to the driver power terminal (U, V, W).
DC (Note 12) CN3 (Note 5) Forced stop 2 DOCOM DICOM 24 V DC (Note 12) Malfunction (Note 4) (Note 5) ALM CN8 RA1 (Note 9) Short-circuit connector (Packed with the servo amplifier) [1] Power supply input terminals, L1, L3: Provide specified power supply to input terminals L1 and L2. [2] Connect the motor power supply input terminal (U, V, W) to the driver power terminal (U, V, W).
(REFRIGERANT) IDF60-20) W R 0001 (2018 4 ) W R 0001 2018 2019 2020 2021 W X y Z 1 2 3 4 o P Q R o 1 Z 12 A Z IDF60/70/80/90 Series 1-5 IDX-OM-W093 1.3 HFC 1-5 IDF60/70/80/90 Series 1-6 IDX-OM-W093 1.4 / 1 1.5 () IDF60/70/80/90 Series 1-7 IDX-OM-W093 IDF60/70/80/90 Series 1-8 IDX-OM-W093 2 2.1 IN OUT (ONOFF ) 6-4 6-4 IDF60,70,80,90-20 IDF60,70,80,90-30 AC200V AC200V L1 L2
2 2 3 122 F(50) 122 F(50) OUT IN (IN) (OUT) 2 2 4 10mm(3/8inch) IDFB Series 2-2 2-2 IDX-OM-W035 2 2 2 5 6-1 IEC ) [ 30mA IDFB22E,37E 15AIDFB55E, 75E 10A] 2) 0.3inch0.5inch (812mm) 16AWG (1.25mm IDFB22E, 37E 3 IDFB55E, 75E 4 4inch (0.1m) 98feet (30m) (3/8 10mm) IDFB Series 2-2 2-3 IDX-OM-W035 2 IDFB22E/37E 118138 mil (33.5mm) PE IDFB55E/75E 118138 mil (33.5mm) =M4X10 L1
Stations Dimension 2 3 4 5 6 123 169 215 261 307 107 153 199 245 291 L1 L2 14-10-17
Light Assembly For 110 VAC: 1530118-1 220 VAC: 1530118-2 24 VDC: 1530118-5 Able to convert into L1, L2, L5 by changing each light assembly. 16-9-4
POTiS J inch(mm) n: stations L t 4 5 7 I 'to Equation L1=1.lOxn+1.85 (L r= 28 x n +47) Lr:1.1Oxn+2,2O (L,:28 x n +56) Lr (75) 4.06 (r03) 5.16 (131) 6,26 fl59) 7.36 (187) 8.46 (2|5) 9.57 \243) 10.67 (271) 11.77 (299) 12.87 (327) Lr 3.31 (84) 4.41 (112) (140) 6.61 (r68) 7.72 (196) s.a2 \224) 9.92 (252) 1t.02 (280) 12.13 (308) 13.23 (336) Series NVFRz000:Base Mounted Tlzpe Manifold Ptug-in Type