CE2 BT-04 BT-04 BT-06 BT-08 BT-08 63 CC 25 to 800 25 to 650 Up to 1150 Up to 900 80 25 to 750 25 to 600 Up to 1100 Up to 900 RB 100 25 to 750 25 to 600 Up to 1100 Up to 850 BD1-04M BD1-05M BD1-06M BD1-08M BD1-10M (kg) Weight J 40 50 63 80 100 Bore size (mm) DBasic style 2.18 3.39 5.29 8.66 12.09 BA-04 BA-05 BA-06 BA-08 BA-10 Foot style 2.37 3.61 5.63 9.33 13.08 -X Flange style 2.55 3.84 6.08
NO YES NO YES YES NO NO NO YES P.10 9 YES YES NO 1? 14.5 ?
Flow Characteristics (Initial conditions) Noise Level (Initial conditions) AN200 to 900 Condition: 0.5MPa at supply pressure of solenoid valve Measurement distance: AN200 to 5001M AN600 to 7002m AN800 to 9003m AN200 to 900 Jis symbol Specifications/Model Specifications Model AN101 -01 AN110 -01 AN120 -M3 AN120 -M5 AN202 to 402 AN202 to 402 Condition: 0.5MPa at supply pressure of solenoid
resolution is 1048576 [Pulse/rev] P Travel amount per 1 command pulse [m] n1/n2 Pulley ratio *1 Ex.)
Built-in magnet for auto-switches CE1 CE2 Maximum Driving Speed of Cylinders ML2B 1000 1000 900 900 C J G5-S Load factor: 10% Load factor: 50% 800 800 Cylinder speed (mm/s) Cylinder speed (mm/s) 700 700 600 600 CV 500 500 400 400 MVGQ 300 300 200 200 CC 100 100 0 0 12 16 20 25 32 40 50 63 80 100 RB SYJ3000 VZ3000 VZ5000 VF3000 Bore size (mm) J Series Variations DDetailed specifications
RSH20, 32 Graphq Graphw 1.0 RSH20 RSH32 0.9 Bore size 50, 63, 80/ = 0 Bore size 50, 63, 80/ = 0.1 Operating pressure P [MPa] 0.8 1300 1300 80 0.7 1200 1200 0.6 1100 1100 0.5 1000 1000 0.4 900 900 0.3 63 80 Load weight m [kg] Load weight m [kg] Load weight m [kg] Load weight m [kg] 0.2 800 800 50 0.1 700 700 600 600 0 500 100 200 300 400 63 Lateral load F [N] 500 500 50 400 400 RS1H50, 63,
A B C D Maximum Speeds for Each Transfer Load Unit (mm/s) Transfer load (kg) 10 20 30 40 50 60 1000 700 500 1000 700 500 Model Note LJ1H3031PD-200 to 1000LJ1H3031PD-1200LJ1H3031PD-1500LJ1H3032PD-200 to 1000LJ1H3032PD-1200LJ1H3032PD-15001000 700 500 900 700 500 1000 700 500 800 700 500 1000 700 500 700 700 500 900 700 500 650 650 500 800 700 500 600 600 500 Power supply: 100/110(V)AC 10% Compatible
This is not a clean room series product. 4 MACM Series Dimensions W (Workpiece loadable range) 4 x D At maximum offset (A + 2 x S) S F DB DA C X114 X115, X116 U B W A H T H Q PB E PA PD P (Unlocking port) PE P (Locking port) P (Relief port) (Option V only) MACM4, MACM6 MACM2, MACM10 PC PC PC PC PE P (Relief port) (Option V only) PD [mm] Dimensions Model A B C D DA DB E F H P PA PB PC PD
]) J M N P L K H 4x0..5 (0.4[9~11mm] [4x13] [IDFB22E-11*(L=2800)] Unitinch [mm] A B C D E F G H J K L M N P 30.5 23.6 IDFB22E 1 [775] [600] 3.3 11.4 24.5 5.3 15.9 27.5 3.7 1.8 1 0.5 12.4 13.4 [290] [623] [134] [405] [698] [93] [46] [25] [13] [314] [85] [340] 26.8 33.7 IDFB37E 1/2 [855] [680] R IDFB55E/75E Q A B H G E D F C (0.4 (39.4[1000]) J L K M N P 4x0..5 [4x13] (M10) Unitinch [mm
Power consumption P: 20 [kW] Q = P = 20 [kW] Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = V: Power supply voltage P 24 [kW] Power consumption e Derive the heat generation amount from the output. Output (shaft power, etc.) W: 13 [kW] w Derive the heat generation amount from the power supply output.
The theoretical output for extension is 1924N, from the theoretical output table on page 2. 20 Load mass m (kg) Load mass m (kg) 80 50 50 50 40 60 40 40 30 40 20 10 0 0 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 Operating pressure P (MPa) Operating pressure P (MPa) Selection Graphs to (Horizontal Mounting) Graph l: 100mm or less Graph l: 101 to 200mm Graph l: 201 to 300mm
A B c D E F H K lil N P O (Ihpth) Tol{ances Tolerances NCDBBlBWlO 1 . 1 4 0.750.98 !.
(N) and (P+) (N-)) of the main circuit converter is displayed. 0 to 900 V 19 Station No.
(N) and (P+) (N-)) of the main circuit converter is displayed. 0 to 900 V 19 Station No.
A B c D E F H K lil N P O (Ihpth) Tol{ances Tolerances NCDBBlBWlO 1 . 1 4 0.750.98 !.
Fittings & Tubing Air Cylinders Rotary Actuators HB HT HC X N A H HA CB W K 2 x plug 2 x P HP (Piping port) 4 x J x E T 4 x counterbore dia.
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 7 [kW] Q = P = 7 [kW] P Cooling capacity = Considering a safety factor of 20%, 7 [kW] x 1.2 = 8.4 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)
V: Power supply voltage Power consumption P: 20 [kW] Q = P = 20 [kW] P Cooling capacity = Considering a safety factor of 20%, 20 [kW] x 1.2 = 24 [kW] Power consumption w Derive the heat generation amount from the power e Derive the heat generation amount from the output. supply output. Output (shaft power etc.)