Cylinder with Lock L1 L2+A5 L3 2 1 V 2 E = W () 2 1000 Collision speed V = 1.4 Va 1 420 2 E = 1 () = 0.088 2 1000 Find the kinetic energy E (J) of the load. ) Correction factor (Reference values) V = 1.4 x 300 = 420 Ea = K E max Find the allowable kinetic energy Ea (J). Confirm that the kinetic energy of the load does not exceed the allowable kinetic energy.
ALM E Power I sens off
Upgrade software be able to download on SMC website. http://www.smcworld.com/ 11 - (7) Teaching box LEC T1 3 E G Teaching box Enable switch Cable length No enable switch Nil 3m 3 Equipped with enableswitchchluded. S Initial language Stop switch English E Equipped with stop switch G Japanese J Dimensions No.
Err overflow (1-196) E Power off
ALM E Power I sens off
ON(SVON ON) 1-193 E ONSVON ON 1-194 E 1-195 E 1-196 E EEPROM 1-197 E EEPROM 10 CPU CPU CPU 1-198 CPU E 1 SV1.00 RESETSVONSETUP 52 - 13. / A () (50mm ) () () 5m 5m 10% 15m 20% 53 - 14 / 141.
L1 L2 + A5 L3 2 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 V 1000 1 2 420 1000 1 2 E = W (-) 2 E = 1 (-) 2= 0.088 Find the kinetic energy E (J) of the load. Find the allowable kinetic energy Ea (J).
ON(SVON ON) 1-193 E ONSVON ON 1-194 E 1-195 E 1-196 E EEPROM 1-197 E EEPROM 10 CPU CPU CPU 1-198 CPU E 1 SV1.00 RESETSVONSETUP 52 - 13. / A 50mm () () 5m 5m 10% 15m 20% 53 - 14 / 14.1 LE () EMG 1000 1 54 - /Best Pneumatics No UL UL1310 Class2 14.2 55 - 14.3 90~100 DC24VSVON a) b) c) d) e) 56 - D (100 ) 14.4 1. 2. 3. 4. 5. 6. 7. 8. /-10603585% 57 - 14.5 5 14.6
P r o d u c t o f t h e W e e k Self Sealing Vacuum Cups Many applications use multiple vacuum cups to lift objects or multiple parts. If even one of the cups do not seal, there can be a loss of pressure to all cups. SMC addresses this problem with series INO Self Sealing Vacuum Cups. By utilizing a small mechanical check valve, it only opens when the cup comes in contact with a part.
D I M E N S I O N S S E E N E X T P A G E NCDRB1BW30 P211180-1 NC_R1FW30 P211180-2 M O R E A C C E S S O R I E S S E E N E X T P A G E Courtesy of Steven Engineering, Inc. !
0 L = 100 mm Max. speed = Over 200 mm/s 10 10 LEYG25L E LEYG32L E/40L E LEYG32L E/40L E LEYG25L E LEYG32L E/40L E LEYG32L E/40L E Load mass m [kg] Load mass m [kg] LEYG25L E LEYG25L E LEYG16L E LEYG16L E 1 1 LEYG16L E LEYG16L E 120 125 120 125 0.1 0.1 10 100 1000 35 40 10 100 1000 35 40 Stroke [mm] Stroke [mm] Operating Range when Used as a Stopper LEYGM (Sliding bearing) Caution 100 LEYG32M
2 4-NT ND Deep TN C G J R XT SN + Stroke ZB + Stroke A E (in) J SN P LF ND D EE E Bore (in) Y E/2 TN WF A EA XT MM DD C BA G KK AA B ZB NT R 1.1 2 1/4 2.36 3 5/8 9/32 9/16 3/8 2 150 (1.5") 1.71 1 5/8 1 3/4 0.3 1 15/16 5/8 1/4-28 3/8 1 1/8 1.26 7/16-20 2.02 1 1/8 4 3/4 1/4-20 1.43 1.06 2 1/4 2.4 3 5/8 7/16 9/16 3/8 2 1/2 200 (2") 1.71 1 1/4 7/8 1 3/4 0.3 1 15/16 5/8 5/16-24 3/8 1 1/8 1.26
Entry-Mounting 04 o4 Tube o a o 06 s6 Tube a o a o 08 08 Tube a a E E 5 List O Pad Dia.
Entry-Mounting 04 o4 Tube o a o 06 s6 Tube a o a o 08 08 Tube a a E E 5 List O Pad Dia.
[mm] M4 x 0.7 thread depth 8 (F.G. terminal) +0.030 0 5H9 ( ) depth 5 n x 5.5 7.5 6 60 150 B D x 150 (=E) 15 15 E [mm] Model L 441 471 541 571 641 671 741 771 A B n D Model L 841 871 941 971 1041 1071 1141 1171 A B n D E LEFS32;;-100-; LEFS32;;-100B-; LEFS32;;-200-; LEFS32;;-200B-; LEFS32;;-300-; LEFS32;;-300B-; LEFS32;;-400-; LEFS32;;-400B-; LEFS32;;-500-; LEFS32;;-500B-; LEFS32;;-600-;
B AA A C FA G TT J LF + STROKE ZB + STROKE R WF TL TM TL E X119 Option (in) TD 0.001 0 Bore (in) MM KK A AA B BA C D DD E EA EE FA G J R TL TM TT UM UV WF Y LF P XI ZB 200 (2) 1 3/4-16 1 1/8 2.6 1.5 1 1/8 1/2 7/8 5/16-24 2 1/2 0.3 3/8 3/8 1.26 1.06 1.84 1 1 3 1.18 5 2.56 1 3/8 2.09 3 5/8 2.40 3.29 5 1/8 250 (2.50 1 3/4-16 1 1/8 3.1 1.5 1 1/8 1/2 7/8 5/16-24 3 0 3/8 3/8 1.30 1.06 2.19 1 1