Plate Cylinder with Lock Series MLU Clevis pin and knuckle pin Rod end nut 30 d Dd9 d D C l m m t t L H B (mm) (mm) Part no. Size 25 32 40 50 l 18.2 22.2 26.2 32.2 Size 25 32 40 50 Part no.
The kinetic energy of load can be found using the following formula. 20 10 5 V M M 2 V 2 100 300 1000 2000 500 Ek = Ek: Kinetic energy (J) M: Weight of load (kg) V: Piston speed (m/s) Maximum drive speed (mm/s) Example) Load limit at rod end when air cylinder 63 is actuated with max. actuating speed 500 mm/s. at a maximum drive speed of 500 mm/s.
The kinetic energy of load can be found using the following formula. 20 10 5 V M M 2 V 2 100 300 1000 2000 500 Ek = Ek: Kinetic energy (J) M: Weight of load (kg) V: Piston speed (m/s) Maximum drive speed (mm/s) Example) Load limit at rod end when air cylinder 63 is actuated with max. actuating speed 500 mm/s. at a maximum drive speed of 500 mm/s.
The kinetic energy of a load can be found using the following formula. 20 10 5 M 100 300 1000 2000 500 M 2 2 Ek = Maximum drive speed (mm/s) Ek: Kinetic energy (J) M: Weight of load (kg) : Piston speed (m/s) Example) Find the rod end load limit when a 63 air cylinder is operated at a maximum drive speed of 500mm/s.
Lead wire length(m) Load voltage Auto switch model Tie rod mounting Band mounting Indicator Applicable load Pre-wired connector Wiring (Output) Special function Style Electrical entry 0.5 () 3 (L) 5 (Z) AC DC 3-wire (Equiv. to NPN) Z76 5V IC circuit Grommet Reed switch Solid state switch Z73 A54 A59W Y59A Y7P J51 Y59B Y7NW Y7PW Y7BW Y7BA F59F A33 A34 A44 G39 K39 100V 100V,200V Relay
www.stevenengineering.com I 2.65 SOLENOID VALVES SERIES (N)VZ500 H O W T O O R D E R M A N I F O L D T Y P E 41 B O T T O M P O R T E D D I M E N S I O N S M A N I F O L D T Y P E 41 B O T T O M P O R T E D G R O M M E T T Y P E (N)VV3Z5 41 01T 2 N U M B E R O F S TAT I O N S T H R E A D T Y P E 02 2 Stations to 20 20 Stations PT T NPTF F O R A L L O T H E R D E TA I L S, R E F E R T O T
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Rated Flow Range: 40 (5 to 40 L/min), Flow Adjustment Valve: None, Thread: N (NPT), Port Size: 06 (3/4), Output Specification: A (OUT1: NPN; OUT2: NPN), Temperature Sensor: T (Temperature Sensor), Lead Wire: Lead Wire w/M8 Connector, 3m, Unit Specification: M (Instantaneous Flow Rate: L/min; Accumulated Flow: L; Temp: °C), Bracket: None, Calibration Certificate: None, Made to Order: X109
Rated Flow Range: 40 (5 to 40 L/min), Flow Adjustment Valve: None, Thread: N (NPT), Port Size: 06 (3/4), Output Specification: B (OUT1: PNP; OUT2: PNP), Temperature Sensor: T (Temperature Sensor), Lead Wire: Lead Wire w/M8 Connector, 3m, Unit Specification: M (Instantaneous Flow Rate: L/min; Accumulated Flow: L; Temp: °C), Bracket: None, Calibration Certificate: None, Made to Order: X109
Rated Flow Range: 5 to 40 L/min, Flow Adjustment Valve: None, Thread: NPT, Port Size: 3/4, Output Specification: OUT1: NPN; OUT2: NPN, Temperature Sensor: Temperature Sensor, Lead Wire: Lead Wire w/M8 Connector, 3m, Unit Specification: Instantaneous Flow Rate: L/min; Accumulated Flow: L; Temp: °C, Bracket: None, Calibration Certificate: None, Made to Order: EPDM Seal Material
Rated Flow Range: 5 to 40 L/min, Flow Adjustment Valve: None, Thread: NPT, Port Size: 3/4, Output Specification: OUT1: PNP; OUT2: PNP, Temperature Sensor: Temperature Sensor, Lead Wire: Lead Wire w/M8 Connector, 3m, Unit Specification: Instantaneous Flow Rate: L/min; Accumulated Flow: L; Temp: °C, Bracket: None, Calibration Certificate: None, Made to Order: EPDM Seal Material
8 (Metric) 04 2 x Rc1/2 (Branch specification) F06 G3/4*2 *3 The same thread type selected for e is used for the port. t Supply valve/Release valve combination u Electrical entry F04 2 x G1/2*2 (Branch specification) N06 NPT3/4 5/16" (Inch) N04 2 x NPT1/2 (Branch specification) L plug connector M plug connector L: Lead wire length 0.3 m M: Lead wire length 0.3 m K1 Supply valve (N.C.),
N06 NPT3/4 5/16(inch) N04 2xNPT1/2 6) 5 DC24V *1G JIS B0202 ISO1603 ISO1179 8) Z 7 L L 0.3(m) 11) A NPN LO B PNP M M 0.3(m) MO 12) 9) M SI (kPa) D P (:psi) E 10) 14 GN (G) B G *7ZL212 27mm ZL212 (2 /1 , 4 ) E (2 ) F (2 ) V (1 ) 13 G 2m) W (2m) 5 No.ZL3-OM00801-A 2. 2.1 (1/P) (2/V) ZL3 ZL6 (3/E) // / (G) (2/V) 2.2 ZL6 1 ZL6 (ZL6-SC1-A) 2), 6 No.ZL3-OM00801-A 3. 3.1
m 0 . 0 1 m m 0 . 0 1 m m 0 . 0 1 m m 0 . 0 1 m m 0 . 0 1 m m Fluid A i r A i r A i r A i r A i r A i r Operating Pressure 0.2~0.6MPa 0.15~0.6MPa 0.2~0.6MPa 0.15~0.6MPa (29~87PSI) 22~87PSI 29~87PSI 22~87PSI Ambient and Fluid Temperature 0 ~ 6 0 C ( 3 2 ~ 1 4 0 F ) 0 ~ 6 0 C ( 3 2 ~ 1 4 0 F ) Max Operating Frequency 1 8 0 c . p . m 1 8 0 c . p . m Lubrication N o n l u b e N o n l u b
P N E U M A T I C T E C H N O I O G Y In Table 4.20, column "65 mm Dia', we find the lollowing equivalent pipe length: 2 . 8 m two elbows: 2. 1.4 m = 1.6 m two 90o bends: 2'0.8 m six standard lees: 6 . 0.7 m = 4 . 2 m two gate valves: 2 . 0.5 m = 1.0 m 9.6 m Total The twelve fittings have a flow resistance equalto approximately 10 m additional pipe lengthThe "E rective Length" ot the pipe
P N E U M A T I C T E C H N O I O G Y In Table 4.20, column "65 mm Dia', we find the lollowing equivalent pipe length: 2 . 8 m two elbows: 2. 1.4 m = 1.6 m two 90o bends: 2'0.8 m six standard lees: 6 . 0.7 m = 4 . 2 m two gate valves: 2 . 0.5 m = 1.0 m 9.6 m Total The twelve fittings have a flow resistance equalto approximately 10 m additional pipe lengthThe "E rective Length" ot the pipe
PD09PD11(MBR) 4 39 4 4.12 (PE)( ) (PE) (di/dtdv/dt) EMCEMC(IB()67303) NFB MC CN2 L1 () L2 L3 L11 U U L21 V V M W W CN3 PE PE (PE) PE .
L M ,. Flat type Flat with rib (mm) Flat type Flat with rib mm M~ .. 'B c l D E Model M 'B C D E F G 1:4 1:6 Y 'A Y .' 1:6 H 1:8 H F G Flat with rib H H Flat Aatwith rib Flat ZPT25g ...
Ali d mensions in m Llimeters. 42