Cooling Capacity: 018 (Cooling Capacity: 1500/1700W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: F (G w/PT-G Conversion Fitting Set)
Cooling Capacity: 018 (Cooling Capacity: 1500/1700W, 50/60 Hz), Cooling Method: W (Water-cooled Refrigeration), Thread: N (NPT w/PT-NPT Conversion Fitting Set)
Cooling Capacity: 018 (Cooling Capacity: 1500/1700W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: N (NPT w/PT-NPT Conversion Fitting Set)
Cooling Capacity: 018 (Cooling Capacity: 1500/1700W, 50/60 Hz), Cooling Method: A (Air-cooled Refrigeration), Thread: Rc
Cooling Capacity: 018 (Cooling Capacity: 1500/1700W, 50/60 Hz), Cooling Method: W (Water-cooled Refrigeration), Thread: F (G w/PT-G Conversion Fitting Set)
Cooling Capacity: Cooling Capacity: 1500/1700W, 50/60 Hz, Cooling Method: Air-cooled Refrigeration, Thread: G w/PT-G Conversion Fitting Set, Option: -
Cooling Capacity: Cooling Capacity: 1500/1700W, 50/60 Hz, Cooling Method: Water-cooled Refrigeration, Thread: NPT w/PT-NPT Conversion Fitting Set, Option: -
Cooling Capacity: Cooling Capacity: 1500/1700W, 50/60 Hz, Cooling Method: Air-cooled Refrigeration, Thread: NPT w/PT-NPT Conversion Fitting Set, Option: -
Cooling Capacity: Cooling Capacity: 1500/1700W, 50/60 Hz, Cooling Method: Air-cooled Refrigeration, Thread: Rc, Option: -
Cooling Capacity: Cooling Capacity: 1500/1700W, 50/60 Hz, Cooling Method: Water-cooled Refrigeration, Thread: G w/PT-G Conversion Fitting Set, Option: -
1 AXT100-FC26-1 1.5 m AXT100-FC20-1 AXT100-FC10-1 AXT100-FC26-2 3 m AXT100-FC20-2 AXT100-FC10-2 AXT100-FC26-3 5 m AXT100-FC20-3 AXT100-FC10-3 Specified Layout COM. COM. 25 26 23 24 COM. COM. 21 22 19 20 19 20 19 20 17 18 17 18 17 18 15 16 15 16 15 16 COM. COM. 13 14 13 14 13 14 11 12 11 12 11 12 9 10 9 10 9 10 9 10 7 8 7 8 7 8 7 8 5 6 5 6 5 6 5 6 3 4 3 4 3 4 3 4 1 2 1 2 1 2 1 2 COM. COM.
K M MM N P S W Without gaiter with gaiter 40 ~ 800 20 ~ 800 27 30 60 44 16 32 15 15 M 8 x 1.25 6 11 M 14 x 1.5 27 1/4 84 8 50 ~ 1000 20 ~ 1000 32 35 70 52 20 40 17 17 M 8 x 1.25 7 11 M 18 x 1.5 30 3/8 90 0 63 ~ 1000 20 ~ 1000 32 35 85 64 20 40 17 17 M 10 x 1.25 7 14 M 18 x 1.5 31 3/8 98 0 80 ~ 1000 20 ~ 1000 37 40 102 78 25 52 21 21 M 12 x 1.75 11 17 M 22 x 1.5 37 1/2 116 0 100 ~ 1000 20
P O R T S PT Ports XC18 NPT Ports (25~40 Only) A L L O W A B L E M O M E N T A N D M A X I M U M A L L O W A B L E L O A D H O W T O O R D E R M Y 1 M R O D L E S S C Y L I N D E R MY1M G M O M E N T (N M) A L L O W A B L E L O A D (N) B O R E S I Z E 16 16mm 20 20mm 25 25mm 32 32mm 40 40mm 50 50mm 63 63mm Local Production Available N O O F S W I T C H E S ...2 Pieces S ...1 Piece
VA or less 10 W or less 20 VA or less 10 W or less 20 VA or less 10 W or less 20 VA or less 10 W or less Power consumption Between case and AC line: 1500 VAC for 1 min.
Weight m X-axis Y-axis Z-axis Z 20 W 20 mm 30 mm 50 mm 2 kg 50 Y 30 3.
DC 0.35 W DC 0.1 W DC (at holding) with power saving circuit Note 1) VZ VS VFN Note 1) With the 0.1 W DC specification, keep the vibration/impact within10/50 m/s2. 0.35 W DC at inrush (20 ms) and 0.1 W DC at holding.
Connect the driver power output (U/V/W) to the servo motor power input (U/V/W) directly. Do not let a magnetic contactor, etc. intervene. Otherwise, it may cause a malfunction. CAUTION Driver Driver Servo amplifier Servo motor Servo amplifier Servo motor U U U U V V M V M V W W W W 3 2 3.
blocks, m: Weight of DIN rail ) W = 13n + m + 36 W = 41.2n + m + 77.6 W = 65.4n + m + 128.2 Note) In cases such as those where many valves are operated simultaneously, use "Stations B ( SUP/EXH block on both sides)", applying pressure to the P ports on both sides and exhausting from the R ports on both sides.
MGC series 20 to 50 MGC Series (mm) C port SZ + Stroke B Cushion valve (Width across flats WH) Front mounting flange Bore size (mm) GC GD SA SB W 1 W 2 A, B port A port W 2 W 1 A 20 25 32 40 50 30 30 21 9 50 87 30 30 C port D port 21 9 50 87 B port W 2 W 1 10 A' 25 30 23 9 52 91 20 20 24 8 59 99 Cushion valve (Width across flats WH) D port ZZ + Stroke A + Stroke B SB + Stroke B SA + Stroke
: Transfer load (kg) a : Work piece acceleration (mm/s) Me: Dynamic moment L : Overhang to work piece center of gravity (mm) a = 2000 m 1000 L1 a = 3000 0 20 40 60 Transfer load m (kg) 600 L2 400 Mer m 200 L2 0 20 40 60 Mer m Transfer load m (kg) 2000 a = 1000 L3 1000 a = 2000 m a = 3000 Mey a 0 20 40 60 Transfer load m (kg) Refer to page 145 for deflection data. 20 21 Courtesy of Steven