VXD21/22/23 L, Z S L, Z S Note ) Thread PB 1 32A 40A 50A AC Flange DC Note) Surge voltage suppressor is attached in the middle of lead wire.
Z S L, Z S Note ) PAX 1 1 4 1 2 PB AC Ordering example (Example) Series VXR21, Rc 3/4, 24 VDC, Conduit terminal (Part no.)
Gap too small Green 2 a Place the gap gauge on the detection nozzle for precise adjustment. s Confirm applied air pressure.
Example: VEX1300-03 G36-4-01 (Constructive symbol) 5.1-1 VEX1 How to Order 1 03 D 3 1 0 B VEX Regulator valve B Bracket Option F Foot (Only VEX110) G Gauge When specifying more than one option, combine symbols in alphabetical order. 0 Air operated Operating style 1 External pilot solenoid None Indicator light and surge voltage suppressor S Surge voltage suppressor Z Indicator light and
SMC Corporation of America (Detroit) 2990 Technology Drive Rochester Hills, MI 48309 TEL: (248) 299-0202 FAX: (248) 293-3 w w w . s m c u s a . c o m SMC CORPORATION OF AMERICA U.S. HEADQUARTERS 3011 N. FRANKLIN ROAD INDIANAPOLIS INDIANA 46226
Calculation ZX ZR : Lifting force (N) : Stable vacuum pressure (kPa) : Pad area (cm2) : Factor of safety: Horizontal pad contact : 4 (dynamic) Vertical pad contact : 8 (dynamic) W P S t Pad ZM W = P x S x 0.1 x 1 t W ZH W ZU 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
@w, s Bore Siee Noaulo swjtch builtjn (hjglr magnelic Add L and Z at the end of part numberlor 3m and sfi, respectively. "ALrto switch detail: see pgs. 10-11.
rated pressure range, Ambient temperature 25 3C) Linearity 1% F .S. or less Repeatability 1% F .S. or less Power supply voltage effect 1% F .S. or less based on the analog output at 18 V ranging from 12 to 24 VDC Enclosure IP40 Temperature range 0 to 50C; Stored: 10 to 70C (No freezing or condensation) Resistance Withstand voltage 1000 VAC, 50/60Hz for 1 minute between external terminals
Make sure to connect a speed controller and adjust it to a speed of 500 mm/s or less to operate the cylinder.
Valve model Type of actuation Port size 1 4/2 (P A/B) Flow characteristics Note 2) Note 3) Effective area mm2 4/2 5/3 (A/B EA/EB) Weight (g) Pilot port size Cv C [dm3/ (s bar)] b Cv C [dm3/ (s bar)] b Grommet Single Double Closed center Exhaust center Pressure center Single Double Closed center Exhaust center Pressure center Single Double Closed center Exhaust center Pressure center 48
5.26 AIR PREPARATION HIGH FLOW SERIES LUBRICATOR SERIES (N)AL Port Sizes 1 12~2 Atomizes Lubricant into fine particles at a uniform rate Drip Rate easily monitored with Sight Dome Can be filled under pressure Bowl Guard Standard Damper precludes oil flooding S Y M B O L S H O W T O O R D E R L U B R I C AT O R S E R I E S NAL NAL800-N12 (1 14 NPT) NAL800-N14 (1 12 NPT) NAL900-N20 (2 NPT)
CDA2 B 50 200 X1184 B31J S With built-in special magnet Number of auto switches Cylinder stroke Description 2 pcs. 1 pc.
Note 1) 5 to 50 mm/s 5 to 40 mm/s 5 to 100 mm/s Note 1) Consult with SMC when the air-hydro type is mounted on a plate. Note 2) Consult with SMC when units are used at a low speed (10 mm/s or faster) (when intermediate stops are not required) since -XB13 (Low speed specification) is available. Note 3) When using the air-hydro type, use the double side hydro unit.
Model Flow type Pressure type VEF2141 VEF3141 VEF2131 VEP3121 VEP3141 VEF2121 VEF3121 Item 4 1 8 3 , 4 1 8 3 , 4 1 , 8 3 2 1 8 3 , 2 1 4 3 , 8 3 , 2 1 4 3 , Port size Rc , Air Fluid 1.0 MPa 0 to 50C (With no condensation) Maximum operating pressure Ambient and fluid temperature 0.03 s or less 0.03 s or less 0.05 s or less Response time 0.05 s or less Hysteresis 3% F .S. 3% F .S.
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10.0 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10.0 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)
Vacuum pressure Theoretical lifting force Horizontal lifting force [N]Safety factor 1/4 [kPa] [N] 1 cup gripping -50 40.2 10 2 cups gripping -67 53.8 13.4 3 cups gripping -73 58.7 14.6 (Calculated by W = P X S, S = r2, r = 32 / 2. Refer to 3.3 How to calculate theoretical lifting force for the detail.)