Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.
port) S + Stroke N 52 3 x 1/4 (Rc, NPT, G) (Piping port) 20 17 30 10 W 2 x Speed controller valve Top width across flats 3 11.5 3 14 45 45 M16 x 1.5 45 Hs 30 IA IB 40 35 20 38 Width across flats 17 F 4 x M6 Thread depth 12 R15 0.050 d90.093 +0.027 H8 0 Shaft: 12 Hole: 12 97 ZZ + Stroke Z + Stroke Clevis width CKP1A: 16.5 CKP1B: 19.5 CKP1C: 12.5 +0.3 0 +0.4 0 +0.5 0 Unit: mm 40 Symbol F IA
I F RHC (mm) (mm) MK(2) M 30.5 32 41.5 K 46 58 68 J 40 46.5 55 I 76.5 91 110 N 16 15 19 H 73 88 106 F 93.5 107.5 130.5 O 18.5 19.5 21.5 N 16 15 19 M 13 15 19 K 46 58 68 J 40 46.5 55 H 73 88 106 F 76.5 91 110 Applicable cylinder ML2B25 ML2B32 ML2B40 Applicable cylinder ML2B25 ML2B32 ML2B40 RS Q G MM 16 21.5 24.5 PA Rc 1/8 Rc 1/8 Rc 1/4 LL 28 30.5 37.5 KK 15 16 17.5 O 69 84 102 PP 56 62.5 77
DataA: Inlet Air Temperature F 80 90 100 110 120 130 140 149 C 27 32 37.8 43 49 54 60 65 IDFB60/IDFB70 1.33 1.21 1.00 0.78 0.61 0.48 0.38 0.28 IDFB80/IDFB90 1.38 1.38 1.00 0.83 0.63 0.50 0.45 0.37 DataB: Ambient Temperature F 80 90 100 110 113 C 27 32 37.8 43 45 IDFB60/IDFB70 1.16 1.11 1.00 0.78 0.71 IDFB80/IDFB90 1.40 1.22 1.00 0.88 0.83 DataC: Inlet Air Pressure psi 50 60 70 80 90 100 120
E 2-H C D A B Side support B MY-SB 2-J C D A B (mm) A 61 70 87 B 75 84 105 C D E F G H J Part no.
Yaw moment M3 = W4 x L2 YES L2 Is there any influence of noise? (Refer to Caution on Handling on pages 706 and 707.) Install a noise filter. NO M3 There is no particular problem in using the system.
A C B Applicable model Dimensions [mm] A B C HECR002-A5-E 14 230 35 HECR004-A5-E 45 HECR006-A5-E HECR008-A5-E 44 HECR010-A2-E HECR008-W5-E 46 HECR012-W2-E 310 13 400 15 Option symbol F With Flow Switch F HECR Applicable model HECR002-A5-F HECR004-A5-F HECR006-A5-F HECR008-A5-F HECR010-A2-F HECR008-W5-F HECR012-W2-F With flow switch This is an ON/OFF switch detecting low levels of the circulating
SZ3 60 LOZ Manual override E Nil D Non-locking push type A B C D Push & turn locking type, screw driver operated E F F A, B port size Type of valve actuation Rated voltage COM specifications Pilot system A B C 4 One-touch fitting 6 One-touch fitting M5 x 0.8 Mixed 2 position single solenoid 2 position double solenoid 3 position closed center 3 position exhaust center 3 position pressure
MLU B 25 30 D F J79W S MDLU With Auto Switch Number of auto switches Built-in magnet 2 pcs. 1 pc.
Accelerating torque calculation (Example) (Example) Friction coefficient Ta = I x (Nm) Mass m F = mg Clamp F F I : Inertial moment Static torque calculation Movement Load Refer to features page 5. : Angular acceleration = (rad/s) Tf = F x l (Nm) g = 9.8m / s F: Pressing force (N) l l Static torque calculation 2 Load t2 Ts = F x l (Nm) Lever : Rotation angle (rad) t : Rotation time
DIN rail holding screw A: Orange B: Green Power supply terminals (M3 terminal screws) L2 5 The voltage indication marking is for 24VDC.) ( (Rail mounting hole pitch 12.5) L1 (Station n) .
M3 female -M3 male M-3UL For soft nylon tube. Barb elbow P. 92 3.18/2.18 Body rotates at 360 around the stud axis. Nipple M-5ALU-3 Fitting to workpiece and fitting to fitting connection. P. 90 For polyurethane tube. 3.18/2 M3 Universal tee M5 male -M5 male M-5N Body rotates at 360 around the stud axis. M3 female -M3 female -M3 male For soft nylon and polyurethane tube.
) Black F 0V (power supply) (Shield) G Shield 3 High Precision Scale Cylinder Series CEP1 Construction 12, 20 !
Power supply terminals (M3 terminal screws) 4 (A): Orange 2 (B): Green The voltage indication marking is for 24 VDC.
Stroke + 126 3.3 24 1 5 3 5.8 8 3 21 5H9 +0.030 0 depth 5 T-slot dimensions (2/1) 59 F 5H9 +0.030 0 depth 5 29.5 D 4 4 6 6 E 60 90 90 90 F 30 60 60 60 G (50) (50) 100 100 Model LXFH5BD-25 LXFH5BD-50 LXFH5BD-75 LXFH5BD-100 T-slot 4-M5 x 0.8 (for body mounting) thread depth 8 6 Refer to page 299 for mounting. (11.5) 38 E Positioning Time Guide (for Horizontal Mount) For transfer load of 0kg
(ANR)) 4B 1B B AMF250 AMF650 AMF1000 1 4 0.1 MPa 0.1 MPa 0.1 MPa Pressure drop (MPa) Pressure drop (MPa) Pressure drop (MPa) Max. flow line Max. flow line Air flow rate (l /min (ANR)) Air flow rate (m3/min (ANR)) Air flow rate (l /min (ANR)) 2B AMF350 AMF800/801 B 3 8 0.1 MPa 0.1 MPa Pressure drop (MPa) Pressure drop (MPa) Max. flow line Air flow rate (m3/min (ANR)) Air flow rate (l /min
Operating model: MHY2-16D Opening time: 0.15 s a = 40 (mm) b = 7 (mm) c = 8 (mm) d = 5 (mm) e = 10 (mm) f = 12 (mm) A part a b c B part e f d 2.
Pressure 0.6 MPa Pressure 0.6 MPa Pressure 0.6 MPa Pressure 0.6 MPa 0.5 40 8 0.5 Gripping force (N) Gripping force (N) 0.4 30 6 0.4 0.3 0.3 20 4 0.2 0.2 10 2 0.1 0.1 0 20 30 50 60 Gripping point L (mm) 40 0 30 40 60 70 Gripping point L (mm) 50 80 MHY2-16D MHY2-25D F F F F 35 100 Pressure 0.6 MPa Pressure 0.6 MPa 30 0.5 0.5 80 Gripping force (N) Gripping force (N) 25 External grip 0.4 0.4
(F: Thrust of one finger) Pressure 0.6MPa 0.5 40 8 0.5 Holding force (N) Holding force (N) 0.4 30 6 0.4 0.3 0.3 20 4 0.2 0.2 10 2 0.1 0.1 0 20 30 50 60 Holding point L (mm) 40 0 30 40 60 70 Holding point L (mm) 50 80 F F F F MHY2-16D MHY2-25D 35 100 Pressure 0.6MPa Pressure 0.6MPa 30 0.5 0.5 80 25 External hold Holding force (N) Holding force (N) 0.4 0.4 60 20 0.3 0.3 15 40 0.2 0.2 10 20