Rodless Cylinder for Vacuum Series CYV ø15, ø32 x 103 Yaw moment M3 = m x g x (L + A) x 103 Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYV15 CYV32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m: Load mass [kg] L: Distance to load center of gravity [mm] A, B: Distance to guide shaft [mm] g: Gravitational acceleration [9.8m/s2] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Central axis of guide Central axis
x 103 Yaw moment M3 = m x g x (L + A) x 103 Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYV15 CYV32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m: Load mass [kg] L: Distance to load center of gravity [mm] A, B: Distance to guide shaft [mm] g: Gravitational acceleration [9.8 m/s2] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Central axis of guide Central
x (L + A) x 103 Roll moment M2 = m x g x (L + B) x 103 (mm) Model CYV15 CYV32 A 16.5 27.0 B 25.5 48.0 L B L B L A M1, 2, 3 : Moment [Nm] m: Load mass [kg] L: Distance to load center of gravity [mm] A, B: Distance to guide shaft [mm] g: Gravitational acceleration [9.8 m/s2] M2 M1 M3 m x g m x g Guide shaft mounting surface m x g Central axis of guide Central axis of cylinder Dynamic Moment
Pressure range 0 1 2 3 4 5 Needle rotations 14-3-6 7 Soft Start-up Valve Series AV2000/3000/4000/5000 Working Principle w F.R.L. e AV r B ON OFF q t AU B-B AF 1(P) 2(A) AR 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 u IR y VEX AMR 3(R) B ITV IC Working description
I Z Hysteresis setting trimmer Pressure setting trimmer Hysteresis setting trimmer Pressure setting trimmer SET HYS SET HYS L L H H L L H H 15 15 Indicator light (Red) Indicator light (Red) 23 23 SE1-01-16C/-17C SE1-01-16/-17 I Z I Z Pressure setting trimmer 2 Pressure setting trimmer 1 Pressure setting trimmer 2 Pressure setting trimmer 1 SET1 SET2 L L H H 15 SET1 SET2 L L H H 15 Indicator
8370: JIS B 9960-1:-((1:) JIS B 8433-1:2007--1 *2) 1. 2. 3. a. b. c. 4. a. b.
D U 25 Approx. 44 R C C R G1/2 E E G1/2 B B 2-P Port size A A D 2-P Port size (S) Port size G1/2 Compatible heavy duty cord Cable O.D. 6.8 to 10 L L K 2-M Thread depth 6 K 2-M Thread depth 6 (mm) Electrical entry P Port size B C Model A D E F K L M Grommet: G Conduit: C DIN connector: D Conduit terminal: T U 81 91.5 101 103.5 Q 98 101 104 104 R 36 44 53 55.5 S 68 71 74 74 Q 46 50 52 52 R
The cost effective and clean looking AC series allows you to pick a combination of modular style air preparation equipment that best suits your needs. The series, available in 8 size options to ensure optimum performance, offers energy savings, with higher flow rates. Simple assembly and maintenance reduces downtime. Pressure relief, 3 port valve, Accessory for AC series, Body sizes: 1/8
Series AF modular style air filter is a cost effective, clean looking solution to your filtration needs. Its' modular design allows connection with other SMC air preparation equipment. The series is available in six size options with a wide range of accessories.Modular air filter , Prevents contamination , Lighter weight than old style modular AF , Thickness reduction of resin case provides
ACTIVATED CARBON FILTER, ACTIVATED CARBON FILTER, P75, 1.50000 lb
PF3W711/721 (Vinyl chloride piping) -81No.PF-OMM0005-N Flow characteristics of the flow rate adjustment valve PF3W704S PF3W720S PF3W740S -82No.PF-OMM0005-N Analogue output Analogue output (Flow) (PF3W704/720/740) A B C Voltage output 1 V 1.5 V 5 V Current output 4 mA 6 mA 20 mA (PF3W711) A B C Voltage output 1 V 1.4 V 5 V Current output 4 mA 5.6 mA 20 mA (PF3W721-12/14) A B C Voltage output
Description Material q w e r t Solenoid coil IN Armature assembly Stainless steel, HNBR, PPS Return spring Stainless steel O-ring HNBR Body Aluminum Bracket Assembly Dimensions J 1.5 A C 4-6 B D Valve mounting screws 2-H Valve mounting hole Bracket Mounting Dimensions/Bracket Material: Stainless Steel (mm) A B C D H J Assembly part no.
Refer to the WEB catalog for details. 2 port solenoid valve VX210 X276 Body material/Port size/Orifice diameter Specifications Symbol Body material Port size Orifice diameter Z Al No thread machining (1/8) 4 B *1 Rc1/4 D *1 G1/4 *1: Made to Order Symbol Specifications X276 With restrictor Restrictor needle Voltage/Electrical entry Symbol Voltage Electrical entry Z2A 24 VDC DIN terminal with
Return port from DI filter Outlet port to DI filter 118 Options Series HRW Option symbol Z Circulating Fluid Automatic Recovery Z HRW Circulating fluid automatic recovery Select this option for customers who want to use the circulating fluid automatic recovery function.
Bracket A (Part No.: ZS-46-A1) Bracket B (Part No.: ZS-46-A2) -12No.PF-OMU0007-D Mounting with panel mount adapter Mount part (a) to the front of the body and fix it. Then insert the body with (a) into the panel until (a) comes into contact with the panel front surface. Next, mount part (b) to the body from the rear and insert it until (b) comes into contact with the panel for fixing.
8370: JIS B 8361: JIS B 9960-1: -1 ) JIS B 8433-1993: 2) : : : 1. 2. 3. 1. 2. 3. 4
On B side SY3000-37-80A-7 On A side 1 to 8stations SY3000-37-80A-3 On B side SY3000-37-80A-10 On A side 9 to 12stations SY3000-37-80A-6 On B side SS5YJ7-21,41SA SY3000-37-80A-12 On A side 13to16stations SY3000-37-80A-9 On B side Note 1) The above is for station addition or maintenance.
The set values for OUT1 are displayed in auto-preset mode as follows: Normal output Reversed output P_1 = A-(A-B)/4 n_1 = B+(A-B)/4 A = Max. pressure H_1 = (A-B)/2 H_1 = (A-B)/2 B = Min. pressure The set values of OUT2 become as follows "_", i.e. "P_2", "n_2", "H_2".
Referring to case u where "W2" is a sphere, 4a +b 2 2 2 4a +b 2 1 2 1=m1 +m2 12 12 2 r K=m2 5 2 tThin rectangle board (Parallelogram) !0Gear transmission Position of rotation axis: Passes through center of gravity and perpendicular to the board. (Same formula regardless of board thickness.) 1. Find moment of inertia1B around the rod (B). 2.
The set values for OUT1 are displayed in auto-preset mode as follows: Normal output Reversed output P_1 = A-(A-B)/4 n_1 = B+(A-B)/4 A = Max. pressure H_1 = (A-B)/2 H_1 = (A-B)/2 B = Min. pressure The set values of OUT2 become as follows "_", i.e. "P_2", "n_2", "H_2".