EXxx-OMZ0016 Connection status of the NFC reader/writer When the PC detects the NFC reader/writer connected to its USB port, "R/W detected" is displayed. Otherwise, "R/W not-detected" is displayed.
Symbol Symbol Intermediate stroke -X1 1 Rod end female thread -X2 2 MRQ S X X1 32 40 Mounting Style Stroke Cushion Rotation angle Auto switch MRQ S X X2 32 40 Mounting style Stroke Cushion Rotation angle Auto switch Operating stroke Intermediate stroke Rod end female thread For the intermediate strokes other than standard ones, the full length is shortened by cutting the linear motion side
AC50 AC40 AC25 AC30 AC20 SMC Corporation of America 10100 SMC Blvd., Noblesville, IN 46060 www.smcusa.com VHS20 VHS30 VHS40 VHS50 SMC Pneumatics (Canada) Ltd. www.smcpneumatics.ca (800) SMC.SMC1 (762-7621) e-mail: sales@smcusa.com An interface part is required if a spacer or spacer with bracket shown in the table below is attached to a modular FRL.
External Note) pilot type Nil: Individual pilot exhaust type M: Common exhaust for the pilot and main valve None Nil Z S With light/surge voltage suppressor With surge voltage suppressor Not available for GZ, HZ and DOZ P , E port R port P , E port R port Electrical entry Note) VZ52R is for manifold only.
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.)
Intermediate Stroke -X1 1 Rod End Female Thread -X2 2 Mounting Rotating angle MRQ Mounting Stroke Cushion Auto switch Rotating angle S X X1 32 40 MRQ Stroke Cushion Auto switch S X X2 32 40 Rod end female thread Intermediate stroke Operating stroke For intermediate strokes other than standard strokes, the full length is shortened by cutting the linear motion side according to the stroke.
R 1/8 R 1/4 R 1/8 R 1/4 R 3/8 R 1/2 R 3/8 R 1/2 R 3/4 R 1/8 R 1/4 R 1/8 R 1/4 R 3/8 R 1/2 R 3/8 R 1/2 R 3/4 KK3S-01MS -02MS KK4S-01MS -02MS -03MS -04MS KK6S-03MS -04MS -06MS KK3P-01MS -02MS KK4P-01MS -02MS -03MS -04MS KK6P-03MS -04MS -06MS 1/8 1/8 1/4 1/4 1/2 1/2 Female thread type Female thread type Body size Port size Part no. Body size Port size Part no.
AC200VAC230V 50Hz60Hz (2) Option Model a) Motor cable / Lock cable / Encoder cable A S C S M Connector Direction Motor Type A S Axis side AC Servo motor B Opposite axis side Cable Content Motor cable M Lock cable B Cable Length (L) [m] Encoder cable E 2m 2 5m 5 10m A Cable Type Standard cable S Robot cable R 1 12 1.
1 A Q a q 0 0 1 0 2 STX DC2 2 B R b r 0 0 1 1 3 ETX DC3 # 3 C S c s 0 1 0 0 4 $ 4 D T d t 0 1 0 1 5 % 5 E U e u 0 1 1 0 6 & 6 F V f v 0 1 1 1 7 7 G W g w 1 0 0 0 8 ( 8 H X h x 1 0 0 1 9 ) 9 I Y i y 1 0 1 0 10 : J Z j z 1 0 1 1 11 ; K [ k { 1 1 0 0 12 , L l | 1 1 0 1 13 M ] m } 1 1 1 0 14 . N ^ n 1 1 1 1 15 / ?
PA23] STO IEC/EN 61800-5-2STO ON/OFF (MR Configurator2) SSCNET/H (MR Configurator2) (MR Configurator2) 1 8 1. 1.6 (1) LECS S 2 T5 S SSCNET/H ACT5, T6 T5 50W,100W ACT7 200W T7 ACT8 400W T8 (2) a) ACT9 T9* 750W * AC200VAC240V 50/60Hz 2 5 A S LE C S M A AC S B M B E 2m 2 5m 5 10m A S R 1 9 1. bSSCNET (LECSS-S/LECSS2-T) LE-CSS-MR-J3BUSM cI/O (LECSS-S/LECSS2-T) 1 LE C S
0 Description Note Material Aluminum ZDC Aluminum HNBR Resin Stainless steel Aluminum HNBR Steel Solenoid coil assembly Sub-plate Body Spool valve Poppet Guide ring Return spring Manual override Gasket Round head combination screw VQ4 VQD1000-S-M5 (Base mounted only) 1 (P) 3 (R) q u e t r y !
24VDC/650mA 16 VOLTAGE INPUT US C TYPE1 IP CODE IP65 R C US R R R R R R R US C US C US C US C US C US C US C SERIAL NO.
Outline with Dimensions Alameda dos Moinhos, 9G, 2720-381 Alfragide Portugal This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(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.)
TQ1230001-OM102-B
rotation speed (motor rotations/min) Travel speed (mm/s) must be converted into rotation speed (r/min).
# 0 0 P R [CR] No. 1 0 0 0 0 0 1 1 # 0 0 P W [CR] No. 1 0 0 0 0 0 1 1 # 0 0 P W [CR] No. ):0,1,2,3,4 30 - # 0 0 F R [CR] No. # 0 0 F R [CR] No. + 0 1 2 3 4 5 # 0 0 F W [CR] No. + 0 1 2 3 4 5 # 0 0 F W [CR] No. 31 - # 0 0 S R [CR] No. # 0 0 S R [CR] No. 0 0 1 : 0.1(s) # 0 0 S W [CR] No. 0 0 1 : 0.1(s) # 0 0 S W [CR] No. )1 (0.1 )0 32 - # 0 0 O R [CR] No. # 0 0 O R [CR] No. 0