CY1F Load (kg) m1 m4 m2 m3 Moment (Nm) F3 M3=F3 x L3 L3 F1 M1=F1 x L1 F2 M2=F2 x L2 L1 L2
C4 TM MR Configurator2 2. 7.7 5 19 5 5.3 (No.PC) * * ** 5.3.1 No.
L1 V=1.4xVa
EXH Flow Rate Characteristics Model Port size Flow rate characteristics Model Standard specifications P1 P2 A B C D E F G H I VHS20 1/8, 1/4 1/8 66.4 22.3 40 37.5 14 46.6 33.6 28 43 VHS30 1/4, 3/8 1/4 80.3 29.4 53 49 19 52 38 30 49 VHS40 1/4, 3/8, 1/2 3/8 104.9 38.5 70 63 22 58 44 36 63 VHS40-06 3/4 1/2 110.4 42 75 63 22 58 44 44 63 VHS50 3/4, 1 1/2 134.3 53 90 76 26 76 61 53 81 IN, OUT EXH
10BK1-L1 10BK2-L2 10BK21/2-L21/2 1/4 BK3-L3 1/4 RBK3-L31/2 1/4 RBK3-L4 5/16 BK4-L4 5/16 RBK4-L31/2 5/16 RBK4-L3 70 Reducer Bulkhead Bushing Reducing Bushings 10-32 Thru 10-32 * Lock nut and washer included C Thread 9/32 7/16 Hex 5/16 Hex 1/2 D B Hex 1/4 1/4-28 3/8-24 A Thread 71 RB 4-28-10 * RBB 3/8-10 R e d u c e r B u s h i n g D i m e n s i o n s A Tthread 1/4 NPT 1/4 NPT 1/4 NPT 1/4
Applicable shaft type: W (mm) Y L2 L2 max Size (mm) E3 = E1 = Y = 10 3 to 8 5 ( 8 Y) to (Y 1) Y-1 L1 L3 max X Size L2 = L4 = 10 9 (14 X) to (X 1) 15 3 to 9 6 ( 9 Y) to (Y 1.5) Y-1.5 3 to 14 X 1 L1 = 15 10 (18 X) to (X 1.5) 20 3 to 10 7 (10 Y) to (Y 1.5) Y-1.5 3 to 18 X 1.5 L3 = X = 20 10 (20 Xs) to (X 1.5) 30 5 to 13 8 (13 Y) to (Y 2) Y-2 3 to 20 X 1.5 30 12 (22 X) to (X 2) 40 7 to 15 9 (
fitting assembly C4: 4 One-touch fitting assembly M5: M5 thread 2n x C3, C4, M5 C3: 3.2 One-touch fitting assembly C4: 4 One-touch fitting assembly M5: M5 thread 45.5 2.5 10.5 (5) Dimensions Formula L1 = 11n + 20 n: Station (Maximum 20 stations) 21.5 n L 1 2 3 4 5 6 7 8 9 10 L1 31 42 53 64 75 86 97 108 119 130 L2 50 62.5 75 87.5 100 112.5 125 125 137.5 150 L3 60.5 73 85.5 98 110.5 123 135.5
(1) 50A-M5 (M5x0.8) (1) 50A-C3 3.2 () 50A-C4 4 () 8 (10 ) 50A-C6 6 () ZK1-CP-A F1-LC3 3.2 () F1-LC4 4 () 9 Assy ZQ1-BK1-A 25 - No.ZQ-OM01401-B 7.3 b a a a 1. (2 ) 2.
Moment (Nm) Moment (Nm) Moment (Nm) Load mass (kg) M1 = F1 x L1 Piston speed V (mm/s) ML1C/M2, M3 M2 = F2 x L2 M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A. Consider (1) max. load mass, (2) static moment, (3) dynamic moment (when stopper collides) when calculating the max. allowable moment and load mass.
With bracket (Not mounted) F N T 01 Rc 1 8 20 20 stations Q CE-compliant Nil A port: Rc 1/8 Note) Applicable only for DIN terminal type Type 42: Base mounted (A port side ported) Applicable solenoid valve VK334-(-Q) How to Order VV3K3 05 01 42 Applicable blanking plate assembly VK300-42-1A Thread type Solenoid direction Port size Opposite side of A port Nil 1 8 Rc G NPT NPTF 01 Rc Nil C4
, C6 VQ VKF VQZ (Pitch) VZ (A port) Manual override (Non-locking) VS 300 4-Rc 1/8 (Lead wire length) (P , R port) VFN (Lead wire length) 2-4.5 (Pitch) (Mounting hole) Manual override (Non-locking) 300 (Pitch) n-Rc 1/8 (Pitch) n-One-touch fitting C4: Applicable tubing T0425 C6: Applicable tubing T0604 (A port) (A port) Refer to the above drawing for DIN terminal dimensions.
Moment (Nm) Moment (Nm) Load weight (kg) M1 = F1 x L1 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 Piston speed V (mm/s) M2 = F2 x L2 ML1C/M2, M3 Moment (Nm) M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A.
Moment (Nm) Moment (Nm) Load weight (kg) M1 = F1 x L1 Piston speed V (mm/s) M2 = F2 x L2 ML1C/M2, M3 Moment (Nm) M3 = F3 x L3 Piston speed V (mm/s) (How to calculate the load ratio) A. Consider (1) max. load weight, (2) static moment, (3) dynamic moment (when stopper collides) when calculating the max. allowable moment and load weight.
VK300-37-2-01 VK300-37-2-02 VK300-37-2-07 VK300-37-4-51 VK300-37-4-06 VK300-37-3-05 VK300-37-3-53 A1 A2 A3 LW06 LW2 LD4 LD8 100 VAC 200 VAC 240 VAC 6 VDC 12 VDC 24 VDC 48 VDC 4-13-3 4 For details about the applicable products conforming to international standards, visit us at www.smcworld.com. 3 Port Direct Operated Poppet Solenoid Valve Series VKF300 How to Order Valves Electrical entry
VK300-37-2-01 VK300-37-2-02 VK300-37-2-07 VK300-37-4-51 VK300-37-4-06 VK300-37-3-05 VK300-37-3-53 Rated voltage 100VAC 200VAC 240VAC 6VDC 12VDC 24VDC 48VDC Rating symbol A1 A2 A3 LW06 LW2 LD4 LD8 DIN terminal Circuit diagram for connector with light The bushing may be damaged if the tightening torque of 0.8Nm is exceeded.
No.PS-OMM0006CN-E // ZSE40A(F) ISE40A 2 9 12 13 16 16 18 20 23 23 25 25 25 F0 27 F1 OUT1 28 F2 OUT2 31 F3 33 F4 34 F5 / 36 F6 38 F11 39 F80 40 F81 41 42 F90 42 F97 44 F98 46 F99 48 49 52 52 53 60 60 63 -1No.PS-OMM0006CN-E (ISO/IEC)(JIS) 1) 2) 1) ISO 4414: Pneumatic fluid power -General rules relating to systems ISO 4413: Hydraulic fluid power -General rules
area (mm2) Weight (g) A L4 Model L1 L2 L3 M d thread R I.D.
L3: Confirm that this value is lower than the max. overhang shown at the bottom right of the graph. L3 max. overhang = 100 mm w Confirm that L1, L2, and L3 are lower than the max. overhang.
Dimensions LLAA--C Stations 4-Mounting hole for W Y Dimensions (mm) A S K Model LLA2A LLA3A LLA4A LLA5A 11.5 L1 24 L2 L3 29 Sensor (Breathing port) U 2-R 34.5 (mm) H G Station 2 3 4 5 Model C Symbol P N L1 L2 L3 L1 L2 L3 L1 L2 L3 L1 L2 L3 62 93 124 155 E V LLA2A 75 106 137 168 Pitch = B A (OUT) port n-Q 118 149 180 211 P (IN) port 2-Q 74 111 148 185 (Max.
: Nut material PVDF dimensions 1/4 1/4 C side A side H1 H3 (E3, E3) (E1, E1) G L3, L3 L1, L1 Metric Size Model A side (Left) B side (Center) C side (Right) B E1 E1 E2 E2 E3 E3 F G H1 H2 H3 L1 L1 L2 L2 L3 L3 M1 M2 M3 Min. port size Applicable tubing O.D.