Step Motor Driver ( Pulse input type ) R 30 - PNP type (LECPAP-) Power supply for pulse signal Positioning unit side Inside of the driver Current limiting resistor R NP+ <3> 1k NP<4> 120 Current limiting resistor R PP+ <5> 1k PP<6> 120 Caution Be sure to install a current-limiting resistor R according to the pulse-train signal voltage.
175, 200, 250, 300, 350, 400, 450, 500, 600, 700, 800 Rod boot Intermediate strokes are available.
Sphere Position of rotation shaft: Diameter a b r r r = m 12 a2 + b2 = m 2 r2 = m 5 2r2 = m 4 r2 9. When a load is mounted on the end of the lever 10. Gear transmission (B) (A) Number of teeth = a r a2 a1 1. Find the moment of inertia B for the rotation of shaft (B). 2. Then, replace the moment of inertia B around the shaft (A) by A, m2 + m2a22 + K 3 a12 = m1 m1 (Ex.)
seal X42 Anti-corrosive guide unit X45 EPDM seal Mass (g) Stroke (mm) Stroke (mm) One side centralized piping, with switch rail One side centralized piping, without switch rail Model 250 300 350 400 250 300 350 400 50 230 410 910 100 280 480 1020 150 330 550 1130 200 380 620 1240 100 330 510 1060 150 390 600 1190 200 450 690 1320 50 270 420 930 MXY6 MXY8 MXY12 690 1350 760 1460 780 1450
Taper ring Steel balls P f R R Enhanced locking efficiency Greater locking efficiency as well as stable locking and unlocking operation has been achieved by arranging a large number of steel ball bearings in circular rows. The floating taper ring provides alignment and stable locking force with respect to piston rod eccentricity.
Taper ring Steel balls P f R R Enhanced locking efficiency Greater locking efficiency as well as stable locking and unlocking operation has been achieved by arranging a large number of steel ball bearings in circular rows. The floating taper ring provides alignment and stable locking force with respect to piston rod eccentricity.
, 400, 450, 500, 600, 700, 800 25 4000 200, 250, 300, 350, 400, 450, 500, 600, 700, 800 32 5000 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, 1000 40 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, 1000 50 6000 200, 250, 300, 350, 400, 450, 500, 600, 700, 800, 900, 1000 63 Note1) Contact P/A in case of a stroke length beyond the maximum.
MX MTS MY Centralized piping on right CY MG CX R R L DL -X R L Slide table actuation direction 20Centralized piping on left Data R L L R R L Slide table actuation direction 4. Never disassemble the magnetic component parts (external slider, internal slider) of the actuator (cylinder). If will cause decline of the holding force, etc. 2.
MX MTS MY Centralized piping on right CY MG 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 CX L R R DL -X R L Slide table actuation direction 20Centralized piping on left Data R L L R R L Slide table actuation direction 4.
Centralized piping on right R R L L R L Slide table actuation direction Centralized piping on left R L L R R L Slide table actuation direction 2. The plug position of the piping port can be changed to suit the operating conditions. When screwing in the plug for the second time, wrap a sealant tape around the plug to prevent leakage. (1) M5 First tighten lightly until the rotation stops.
6 @2 r y w t e t @2 u i !0 @0 !5 y !9 ZL6 Without valve or pressure switch, Silencer exhaust ZL6 With valve and pressure switch, Port exhaust @1 !2 !3 !1 !6 !8 !7 q !4 r y w t e t u i @0 !5 y !9 Component Parts No. Description Material Note No.
Centralized piping on right L R R L R L Slide table actuation direction Centralized piping on left R L L R R L Slide table actuation direction 4. Never disassemble the magnetic component parts (external slider, internal slider) of the actuator (cylinder). If will cause decline of the holding force, etc. 2.
condition r C = 0.90 based on condition r 2 2 Based on condition t, A and C Corrected air flow = 350 (0.75 x 1.00) = 467 l/min (ANR) 3 Based on condition t, B and C Corrected air flow = 1200 (0.95 x 0.90) = 1400 l/min (ANR) 3 Based on condition y; IDUS4E is selected as the model to process an air flow larger than 467 l/min (ANR) with a 50Hz power supply, according to data D-1.
Cylinder with Lock Series MNB Taper ring Steel ball P f R R High locking efficiency Improved locking efficiency, as well as stable locking and unlocking (unlocking pressure 0.25MPa. 0.05MPa compared to conventional SMC products) have been realized by arranging a large number of precision steel ball bearings in two circular rows.
on condition r C = 0.90 based on condition r 2 2 Based on condition t, A and C Corrected air flow = 350 (0.75 x 1.00) = 467 l/min (ANR) 3 Based on condition t, B and C Corrected air flow = 1200 (0.95 x 0.90) = 1400 l/min (ANR) 3 Based on condition y; IDUS4E is selected as the model to process an air flow larger than 467 l/min (ANR) with a 50Hz power supply, according to data D-1.
q e r q e r q e r w w w w 125 Process Gas Equipment / Diaphragm Valve Specific Product Precautions Be sure to read before handling.
condition r C = 0.90 based on condition r 2 2 Based on condition t, A and C Corrected air flow = 350 (0.75 x 1.00) = 467 l/min (ANR) 3 3 Based on condition t, B and C Corrected air flow = 1200 (0.95 x 0.90) = 1400 l/min (ANR) Based on condition y; IDUS4E is selected as the model to process an air flow larger than 467 l/min (ANR) with a 50Hz power supply, according to data D-1.
direction R T IN-OUT reversal direction Element service indicator Element service indicator Note) 20is applicable only to products with N.C. auto-drain (C) or N.O. auto-drain (D).
port R2 R1 -+ -+ R port R P A, B port Mixed mounting of 3 port valves and 4, 5 port valves P port 3 port valve 4, 5 port valve Interface regulator -+ -+ A B R port R P A, B port P port -+ -+ A B R P -+ -+ A B B R port R P For detailed specifications about SYJ3000, refer to page 1-5-17.
3 (R) 1 (P) 5 (R) 3 (R) 1 (P) e t q r w w q t r A B A B SY SYJ u u R P R R P R SX y VK 3 position closed center/exhaust center/pressure center VZ 3 position closed center VF (A) 4 (B) 2 w t q r VFR 5 (R) 3 (R) 1 (P) 3 position exhaust center A B (A) 4 (B) 2 VP7 5 (R) 3 (R) 1 (P) VP4 3 position pressure center u (A) 4 (B) 2 R P R (This construction shows a closed center.) 5 (R) 3 (R) 1 (P