Wireless System Min. bending radius 45.5 mm 18 EX600-W Series u Power Supply Cable with M12 Connector (A-coded) EX500-AP 050 S Connector specification Cable length (L) 010 1000 mm 050 5000 mm S Straight A Angle Straight connector type Angle connector type M12 14.9 14.9 1 M12 5 1 2 2 6 6 28.3 5 4 3 4 3 30 5 50 40.7 27 30 5 50 L 25.3 Socket connector Socket connector pin arrangement pin arrangement L A-coded
20 30 40 Size 20 30 40 The figure shows the view from the long shaft end.
: A12 Symbol: A13 Symbol: A14 Symbol: A15 R sphere C0.5 DA DA AL MM DA C C DA 30 30 30 H A A H H A H W1 T C Symbol: A16 Symbol: A17 Symbol: A18 Symbol: A19 MM AL DA MM 30 30 30 30 MM MM H A H A H A C H A 46 CP96N/C96N Series Symbol Change of Rod End Shape 1 -XA0 to XA30 Symbol: A20 Symbol: A21 Symbol: A22 Symbol: A23 RD 30 30 MM 30 DA MM 30 DA MM L DB DB C H A T H A T H A B W H A L K Symbol
124 30 70 17 60 70 90 90 20 22.5 Single clevis with ball joint (CS) EN E B (Max.)
F A F Lr 6 6 6 Lr=24mm 0.020 0.04 0.04 0.015 0.03 0.03 Table deflection mm Table deflection mm Table deflection mm MXS6-10 MXS6-20 MXS6-30 MXS6-30 MXS6-20 MXS6-10 MXS6-40 MXS6-50 0.010 0.02 0.02 MXS6-20 MXS6-30 MXS6-10 MXS6-40 MXS6-50 MXS6-40 MXS6-50 0.005 0.01 0.01 10 20 30 40 10 20 30 0 10 20 30 40 0 0 Load N 1N = 0.2248 lbf Load N 1N = 0.2248 lbf Load N 1N = 0.2248 lbf 8 8 8 Lr=50mm 0.020
50 (n 2) 75+ 50 (n 2) 75+ 50 (n 2) 80 + 50 (n 2) 80 + 50 (n 2) 85 + 50 (n 2) n (Same side) n = 2, 4, 6, 8 n = 2, 4, 6, 8 n = 4, 8, 12, 16 n = 4, 8, 12, 16 n = 4, 8, 12, 16 n = 4, 8, 12, 16 n = 4, 8, 12, 16 n = 4, 8, 12, 16 35 + 30 (n 2) 35 + 30 (n 2) 70 + 30 (n 2) 75 + 30 (n 2) 75 + 30 (n 2) 80 + 30 (n 2) 80 + 30 (n 2) 85 + 30 (n 2) n (Different sides) n = 2, 4, 6, 8 n = 2,
of angle adjustment screw an ro en Size ta t r ti n r o n an e n d tio ge 95 ta 10.2 10 20 30 50 70 100 200 ro m mu 7.2 xi Ma 6.5 8.2 7.0 Note) The drawing shows the rotation range of the positioning pin hole.
Because sizes 10, 20, 30 and 50 have the table press fit into an angular type bearing, they cannot be disassembled. 50 11-9-30
Specifications LAT3-10 Stroke 10 mm, Resolution 30 m LAT3-20 Stroke 20 mm, Resolution 30 m Card Motor 8 options LAT3-30 Stroke 30 mm, Resolution 30 m (Refer to the table Product LAT3M-50 Stroke 50 mm, Resolution 5 m Number on the right) LAT3F-10 Stroke 10 mm, Resolution 1.25 m LAT3F-20 Stroke 20 mm, Resolution 1.25 m LAT3F-30 Stroke 30 mm, Resolution 1.25 m LAT3F-50 Stroke 50 mm, Resolution
Specifications LAT3-10 Stroke 10 mm, Resolution 30 m LAT3-20 Stroke 20 mm, Resolution 30 m Card Motor 8 options LAT3-30 Stroke 30 mm, Resolution 30 m (Refer to the table Product LAT3M-50 Stroke 50 mm, Resolution 5 m Number on the right) LAT3F-10 Stroke 10 mm, Resolution 1.25 m LAT3F-20 Stroke 20 mm, Resolution 1.25 m LAT3F-30 Stroke 30 mm, Resolution 1.25 m LAT3F-50 Stroke 50 mm, Resolution
12.5 3 15 20 Angle adjustment screw 32 15 17.5 20 4 25 30 30 12.5 15 (mm) 3 L Max. 32 Max. 31.5 Size 32 40 20 15 40 Possible to Change the Specifications from the Basic Style to -X5 17.5 20 4 25 Specify the part number for hexagon socket head cap screw for angle adjustment referring to the list below. 30 30 Size 32 40 Part no.
How to Order Connector Assembly For DC: SY100 30 4A For 100 VAC: SY100 30 1A Groove Cover For 200 VAC: SY100 30 2A Pin Cover For other voltages of AC: SY100 30 3A Groove DC polar indication Lever Pin Without lead wire: SY100 30 A Lead wire length -+ Socket (with connector and 2 of sockets only) Lead wire Connector Nil 6 10 15 20 25 30 50 300 mm 600 mm 1000 mm 1500 mm 2000 mm 2500 mm 3000
32 45 45 12 9 11 12 63 15 16 52 67 14 37 35 40 50 50 15 9 11 12 80 18 16 66 86 18 47 40 50 60 63 15 11 12.5 14 100 18 20 11 76 96 20 55 13.5 50 60 70 71 15 19 Mounting style (CR): Head side clevis with ball joint A B C D EN ER F E L M N P H Bore size (mm) 0.2 max 0.2 H7 0.1 max H11 H13 H13 0.5 0.5 32 22 10 14 15 30 5 32.5 10.5 6.6 45 10.5 5.5 40 38 12 25 12 16 18 35 5 6.6 55 11 5.5 50
72 100 5 10 55 18 11 22 41 20 32 115 25 75 6.3 16 89 4 Mounting style (ES) Bore size (mm) d3 CN S5 K1 K2 I2 G1 G2 G3 EN EU CH H6 ER 32 11 10 38 51 21 18 31 14 32 10 15 10.5 8.5 6.6 40 11 12 41 54 24 22 35 16 36 10 18 12 8.5 6.6 50 15 16 50 65 33 30 45 21 45 12 20 15 10.5 9 63 15 16 52 67 37 35 50 21 50 12 23 15 10.5 9 80 18 20 66 86 47 40 60 25 63 14 27 18 11 11.5 100 18 20 18 71 15 30 12.5
How to Order Connector Assembly For DC: SY100 30 4A For 100 VAC: SY100 30 1A Groove Cover For 200 VAC: SY100 30 2A Pin Cover Groove For other voltages of AC: SY100 30 3A DC polar indication Lever Pin Without lead wire: SY100 30 A -+ Socket Lead wire length Nil 6 10 15 20 25 30 50 (with connector and 2 of sockets only) 300 mm 600 mm 1000 mm 1500 mm 2000 mm 2500 mm 3000 mm 5000 mm Lead wire
Display for Wireless Remote 30 3.3.1. Information tab 30 3.3.2. Input/Output monitor tab 32 3.3.3. Setting tab 36 3.4. Detailed information of units 41 3.4.1. Information tab 41 3.4.2. Details of I/O monitor tab 50 4. Setting Function 57 4.1. Edit TAG 57 4.2. Software Control 57 4.3. Forced output 60 4.3.1. Forced output conditions 60 4.3.2. Forced output procedure 60 4.3.3.
Closed cenler NVFR2300 NVFR2310 VB 0.7 1 8 0 30 or less 0.95 (0,43) V4 Exhausl center NVFR2400 NVFR24 t0 lb 0.7 180 30 or less 0.95 {0.43) th Pressure center NVFR2500 NVFF25t0 !
Closed cenler NVFR2300 NVFR2310 VB 0.7 1 8 0 30 or less 0.95 (0,43) V4 Exhausl center NVFR2400 NVFR24 t0 lb 0.7 180 30 or less 0.95 {0.43) th Pressure center NVFR2500 NVFF25t0 !
Display for wireless slave 30 3.3.1. Information tab 30 3.3.2. Input/Output monitor tab 32 3.3.3. Setting tab 36 3.4. Detailed information of units 40 3.4.1. Information tab 40 3.4.2. Details of I/O monitor tab 49 4. Setting Function 56 4.1. Edit TAG 56 4.2. Software Control 56 4.3. Forced output 58 4.3.1. Forced output conditions 58 4.3.2. Forced output procedure 59 4.3.3.
Display for wireless slave 30 3.3.1. Information tab 30 3.3.2. Input/Output monitor tab 32 3.3.3. Setting tab 36 3.4. Detailed information of units 40 3.4.1. Information tab 40 3.4.2. Details of I/O monitor tab 49 4. Setting Function 56 4.1. Edit TAG 56 4.2. Software Control 56 4.3. Forced output 58 4.3.1. Forced output conditions 58 4.3.2. Forced output procedure 59 4.3.3.