Hydraulic Cylinder 7MPa Nominal Pressure Series CHN = 1 x Ff Fp = 2 x Ff 4 4 Ff = D x P Formula (3) Formula (4) Ff = (D d) x P Piston speed 150mm/s (initial condition) Example To find the cylinder bore size that is required to operate: On a load weight of 1000N.
table below for auto switch part numbers. 6 8 12 16 20 25 10, 20, 30, 40, 50 10, 20, 30, 40, 50, 75 10, 20, 30, 40, 50, 75, 100 10, 20, 30, 40, 50, 75, 100, 125 10, 20, 30, 40, 50, 75, 100, 125, 150 10, 20, 30, 40, 50, 75, 100, 125, 150 Functional option Nil F R Note 2) Standard With buffer With end lock Axial piping type With buffer & end lock With buffer, axial piping type P FR Note 2) FP
Functional option Adjuster option Without option With buffer With end lock Axial piping With buffer, end lock With buffer, axial piping F R P FR FP Note 1 Note 1 Note 1 AS AT X X X X Note 1 A X X X X End lock option is not available for MXS6.
Without adjuster AS AT A BS (1) Extension end Retraction end Both ends Extension end Retraction end Both ends Extension end Retraction end Both ends Option Combinations Rubber stopper Functional option Nil F R P FR FP Adjuster option Shock absorber BT (1) Nil B (1) (3) (3) (3) AS, CS CS CT C Metal stopper AT, CT (3) A, C Note 1) W/ shock absorber is not available in Series MXQ6.
Expression of Calculation of Allowable Fp, Fy, Fr Pitch moment Yaw moment Roll moment Fp = Lp x Cp x (St/12) (N) Fy = Lr x Cy (N) Fy = Ly x Cy x (St/12) (N) Lp: Distance between table and loading point (mm) Cp: Correction value of moment center position distance (mm) St: Stroke (mm) Ly: Distance between table and loading point (mm) Cy: Correction value of moment center position distance (
Stroke adjuster option Functional option Without adjuster Adjuster at extension end Adjuster at retraction end Adjuster at both ends Absorber at extension end Absorber at retraction end Absorber at both ends AS AT A BS (1) Standard With buffer With end lock Axial piping With buffer, end lock With buffer, axial piping F R (2) P FR (2) BT (1) B (1) FP Note 1) Shock absorber is not available
REC Load weight (kg) ML2B/W1 ML2B/W2 ML2B/W3 ML2B/W4 CX W1 With guide Select cylinder size so that the kinetic energy is allowable. Kinetic energy is under the allowable?
REC Load weight (kg) ML2B/W1 ML2B/W2 ML2B/W3 ML2B/W4 CX W1 With guide Select cylinder size so that the kinetic energy is allowable. Kinetic energy is under the allowable?
REC Load weight (kg) ML2B/W1 ML2B/W2 ML2B/W3 ML2B/W4 CX W1 With guide Select cylinder size so that the kinetic energy is allowable. Kinetic energy is under the allowable?
YES W4 W3 W2 NO Maximum Load Weight (kg) Is there a problem when setting position oversteps plus side? W2 4.8 6.5 8.1 W3 4.4 7.3 11.5 W4 10.2 15.3 25.5 W1 20.4 30.6 51.0 Model ML2B25 ML2B32 ML2B40 YES YES This system cannot be used because its learning function will not operate properly and the stopping accuracy will be worsen.
5 Wiring specifications 0 1 Rubber seal Metal seal F: Slide locking type E: Push-turn locking lever type WO W1 W2 W3 W4 W7 Without M12 connector cable With M12 connector cable (300 mm) With M12 connector cable (500 mm) With M12 connector cable (1000 mm) With M12 connector cable (2000 mm) With M12 connector cable (5000 mm) t Pilot type Nil R Internal pilot External pilot y Back pressure check
PLC (PLC) 15ms30ms /P.36 8.4 USB USB PC USB USB LEC-W2 COM PC COM COM COM COM PC COM LEC-W2 (LEC)== (LEC-W2) =USB =PC (LEC) OFF PC (LEC)(PLC )(PC ) 64 - 16.2 () /P.28 7. /P.11 3. CN1 CN5 DC24V /P.16 4. /P.27 6.4 I/O /P.11 3. PLC (PLC) 15ms30ms /P.36 8.4 () () (LED()) /P.12 3.2 /P.28 7. /P.28 7. /P.28 7. /P.11 3.
PLC (PLC) 15ms30ms /P.36 8.4 USB PC USB USB USB LEC-W2 COM PC COM COM COM PC COM COM LEC-W2 (LEC-W2) (LEC)== =USB =PC (LEC) OFF PC (LEC)(PLC )(PC ) 64 - 16.2 () /P.28 7. /P.11 3. / CN1 CN5 / DC24V /P.16 4. /P.27 6.4 I/O /P.11 3. PLC (PLC) 15ms30ms /P.36 8.4 () () (LED()) /P.12 3.2 /P.28 7. /P.28 7. /P.28 7. /P.11 3.
Nm N M1 M M3 W W2 W W4 ML2B25 10.0 1.2 3.0 200.0 58.0 65.0 100.0 ML2B32 20.0 2.4 6.0 300.0 80.0 96.0 150.0 ML2B40 40.0 4.8 12.0 500.0 106.0 140.0 250.0 ML2B25 ML2B32 ML2B40 J 0.43 0.68 1.21 18 ML2B/M1 ML2B/W1 ML2B/W1 0 0 0 Nm 0 0 0 N N 0 m/s m/s m/s ML2B/M2 ML2B/W2 ML2B/W2 N m N N m/s ML2B/M3 m/s m/s 20 ML2B/W3 ML2B/W3 10 Nm 5 3 2 1 N N m/s m/s m/s ML2B/W4 500 N 00 N
(LATC-W2) be checked using the Device Manager in the PC. For details of the COM port checking and setting methods refer to the "LATC-W2 Controller Configuration software Installation Manual". Check that the LATCA controller communication cable, conversion unit, USB cable, and PC are connected correctly. For example, communication cannot be established if the connector has been damaged.
L8 L7 L4 L3 L2 X X D3 D1 Y L1 M1 M1 Applicable tubing O.D.: 3.2, 4, 6 1/8", 5/32" 2 x Applicable tubing O.D. d Front view Right side view Metric Size Model Applicable tubing O.D. d D1 Release button D2 D3 D4 D5 L1 L2 L3 L41 L5 L6 L7 L8 M1 W1 W2 X1 X2 Weight [g] X(X) Y Max.