Overall manifold length Overall manifold length Approx. 29% reduction SY5000 manifold SY5000: 3 stations SY3000 manifold SY3000: 4 stations Mixed manifold SY5000: 3 stations, SY3000: 4 stations For serial transmission EX260 A B A B A B A B A B A B A B A B A B A 14 A B A 14 A B A 14 A B A 14 A B A 14 A B A 14 Installation space A 14 A 14 A 14 A 14 A 14 A 14 A 14 A 14 B 12 B 12 B 12 B 12 B
CJ1 Series CJ2 Series CA2 B port D port C port A port CJP D port C port A port B port CJ2 S + Stroke B S + Stroke A Z + Stroke (A + B) CM2 D port C port Z S NB Bore size (mm) CG1 A port Stroke B B port Stroke A 10 150 36.5 21 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
www.stevenengineering.com I 2.89 SOLENOID VALVES SERIES VQZ BODY PORTED TYPE M A N I F O L D O P T I O N S E R I E S V Q Z 1 0 0 0 / 2 0 0 0 / 3 0 0 0 B L A N K P L A T E A S S E M B L Y BLANK PLATE ASSEMBLY VVQZ1000-10A-2 VVQZ2000-10A-2 VVQZ3000-10A-2 USED TO RESERVE A VALVE MOUNTING SPACE ON THE MANIFOLD FOR FUTURE USE M A N I F O L D O P T I O N S E R I E S V Q Z 1 0 0 0 / 2 0 0 0 / 3
closed center: VFR630 -F(Z) 3 position exhaust center: VFR640 -F(Z) 3 position pressure center: VFR650 -F(Z) 0 1 0 1 0 1 2 position double: VFR620 -F(Z) 263 3-2.3 146 93 (Electrical entry) 45 117 A B A B 72 90 108 PE EA EB PE P Manual override 170 186 4-9 (Mounting hole) (Non-locking) G 1/2 Light/Surge voltage suppressor (For FZ) Other dimensions are the same as the single type. 3-5-97
D-M9 A/D-M9 AV (With indicator light) D-M9NAV V A B 9 M D A B 9 M D A N 9 M D D-M9PAV D-M9PA Auto switch part no.
Double Acting/Single Rod Double clevis style: CHAD 2 x Rc P Cushion adjustment screw V T GA 4 x J GB Air release Width across flats G CDH9 MM R (max.) d W D E W a MA CX 0.3 F NA NB U A K mC L 0 0.3 S + Stroke H mB Z + Stroke RR ZZ + Stroke CHQ With rod boot CHKm CHN e CHM CHSm 10 l f CH2m h + l Z + l + Stroke CHA ZZ + l + Stroke Related Equipment D-m (mm) Bore size (mm) A mB mC a CX D E
(VX31, 32, 33) 20 Model Minimum AC/DC Ambient temperature (C ) 40 10 Operating fluid temperature (C ) Temperature conditions Power source Sketch Air Vacuum 60 10 40 AC/DC Maximum AC/DC 20 Minimum Position ON X X P A P A X OFF X X A R (VP) A R X ON X X A R (VP) X A R OFF X X P A X P A ON Pq A A Pq Pq A Pq A A Pq OFF Pw A A Pw Pw A A Pw Pw A Note 1) An exclusive type set with
VQZ (A) 2 (A) 2 VZ 3 (R) 1 (P) 3 (R) 1 (P) VS VFN r e w q r e w q N.O. N.O. (A) 2 (A) 2 3 (R) 1 (P) 3 (R) 1 (P) Component Parts No.
S) TL/TIL SMC LQ3 C A B SMC B A SMC D U (Max. T) Z (H) View Z LVQm0-S shown.
With end lock Working principle A + A A Series CXS 6, 10, 15, 20, 25, 32 Piston seal A A A CX2 R H R H CXW 1. When the piston is retracting, air is exhausted through both A and A until piston seal H passes air passage A. 2. After piston seal H has passed air passage A, air is exhausted only through A.
to Z kgm2 IB m1 m2 r1 r2 Axis on the center gravity of B part of attachment and parallel to Z Z2 Weight of A part of attachment kg MHF kgm2 Weight of B part of attachment kg Total moment of inertia for attachment I Distance between Z and Z1 axis mm Inertia moment around the Z1 axis of A part of attachment kgm2 IZ1 MHL Distance between Z and Z2 axis mm Inertia moment around the Z2 axis of
-XC47 to -XC58 S, W, Y -XC59 to -XC61 Change of port direction S, W, X, Y Z, T, J, K -X7* Heat resistant type (100C) S, W, X, Y Z, T, J, K Angle adjusting screw -X16 Fluororubber seal S, W, X, Y Z, T, J, K -X10 Both sides angle adjustable S, W, X, Y Z, T, J, K 0 0 9 0 y 1 a y A port B port w a y n w e -X11 One side angle adjustable, One side with cushion io k y of e S, W, X, Y Z, T, J, K
Since S, Z and T types (with a power saving circuit) have a voltage drop due to internal circuit, do not exceed the following allowable voltage fluctuation range.
Calculate the load factor for each direction. x = Xc/Lx, y = Yc/Ly, z = Zc/Lz 5. Confirm the total of x, y and z is 1 or less. x + y + z 1 When 1 is exceeded, consider a reduction of acceleration and work load, or a change of the work load center position and series. Acceleration [mm/s2]: a Work load [kg]: m Work load center position [mm]: Xc/Yc/Zc z y 1. Horizontal 3. Wall x y x z 2.
Regenerative absorption units and regenerative resistors are available as options, therefore, separately order a model compatible with the motor and driver selection from the options ordering procedures on page 100. 400 L1 (mm) a = 1000 Pitching Yawing Vertical Vertical m a a = 3000 a = 2000 200 L1 Mep 0 2 4 6 8 10 Transfer load m (kg) 600 a = 1000 L3 (mm) a = 2000 a = 3000 400 a 200 L3 Mey
With deceleration started at the front end of a proximity dog, the position where the first Z-phase signal is given past the rear end of the dog or a motion has been made over the home position shift distance starting from the Z-phase signal is defined as a home position.
With deceleration started at the front end of a proximity dog, the position where the first Z-phase signal is given past the rear end of the dog or a motion has been made over the home position shift distance starting from the Z-phase signal is defined as a home position.
Operating principle A + A' A' A Piston seal A' A' R H R H When the piston is retracting, air is exhausted through both A and A' until piston seal H passes air passage A. After piston seal H has passed air passage A, air is exhausted only through A'. The section marked with slanted lines becomes a cushion chamber, and an air cushion effect is achieved.
CJ1 CJP CJ2 CM2 U1 A H MM NDH10 U1 NX1 Z R2 Y Bore size (mm) 20 25, 32 40 Applicable bore size (mm) 20 25, 32 40 NDH10 R1 A A1 NX E1 L1 MM Part no.