Tie-rod Type Hydraulic Cylinder

14 14 14 11.5 12 13.5 14.5 12 12.5 14.5 15 10 10 11.5 11.5 12 The auto switches listed below cannot be mounted on 63.

180
Angular Style Air Gripper Series MHY2/MHW2 Cam Style Rack & Pinion Style 1

-6 = 9.0 x 10-6 (kgm2) Moment of inertia around Z axis IA = IZ1 + m1r12 X 10-6 z r2 Z2 B part r2 = 47(mm) Calculation of weight m2 = d x e x f x Specific gravity m2 = 5 x 10 x 12 x 2.7 x 10-6 = 0.002 (kg) Moment of inertia around Z2 axis IZ2 = {m2 (d2 + e2)/12} x 10-6 IZ2 = {0.002 x (52 + 102)/12} x 10-6 = 0.02 x 10-6 (kgm2) IB = 0.02 x 10-6 + 0.002 x 472 x 10-6 = 4.4 x 10-6 (kgm2) I =

180
Angular Style Air Gripper Series MHY2/MHW2 Cam Style Rack & Pinion Style 1

-6 = 9.0 x 10-6 (kgm2) Moment of inertia around Z axis IA = IZ1 + m1r12 X 10-6 z r2 Z2 B part r2 = 47(mm) Calculation of weight m2 = d x e x f x Specific gravity m2 = 5 x 10 x 12 x 2.7 x 10-6 = 0.002 (kg) Moment of inertia around Z2 axis IZ2 = {m2 (d2 + e2)/12} x 10-6 IZ2 = {0.002 x (52 + 102)/12} x 10-6 = 0.02 x 10-6 (kgm2) IB = 0.02 x 10-6 + 0.002 x 472 x 10-6 = 4.4 x 10-6 (kgm2) I =

Cylinder with Lock

85 15 50 16 12 12 10 51 8 M8 x 1.25 6 Up to 600 35 32 70 27 108 1/4 1/8 52 20 40 10 95 17 56 20 13 15 12 58 11 M8 x 1.25 7 Up to 600 35 32 86 27 115 1/4 1/4 64 20 40 10 102 17 65 20 18 12 15 58 11 M10 x 1.25 7 Up to 750 40 37 102 32 139 1/4 1/4 78 25 52 14 123 21 79.5 20 23 18 17 71 13 M12 x 1.75 10 Up to 750 40 37 116 41 160 1/4 1/4 92 30 52 14 144 21 93.5 22 25 20 19 72 16 M12 x 1.75 10

17

Note 1) 5 10 5 10 D-A9 D-A9V D-M9V 5 Note 1) 5 D-M9 10 Note 1) 10 5 Note 2) D-M9W 10 Note 2) 10 5 Note 2) D-M9WV D-M9AV 10 5 Note 2) D-M9A 10 Note 2) 15 15 D-P3DW Note 1) Confirm that it is possible to secure the minimum bending radius of 10 mm of the auto switch lead wire before use.

Air Slide Table Series MXP

A A F F A F L L L 6 6 6 L = 80 mm L = 80 mm L = 80 mm MXP 6-5 MXPJ6-5 MXP 6-10 MXPJ6-10 MXP 6-5 MXPJ6-5 MXP 6-10 MXPJ6-10 Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) MXP 6-5 MXPJ6-5 MXP 6-10 MXPJ6-10 0.05 0.05 0.06 0.04 0.04 0.03 0.04 0.03 0.02 0.03 0.02 0.02 0.01 0.01 0.01 0 10 20 30 50 Load (N) 0 10 20 30 40 Load (N) 0 10 20 30 40 Load (N

ISO Cylinder ISO Standard (15552) CP96 Series ø32, ø40, ø50, ø63, ø80, ø100 C85 15% Weight reduced C85W Up Lightweight C85-S/T to C85K * Compared with the previous CP96 series (ø40, 100 mm stroke) C85K-S/T By adopting a new cushion method (Air cushion

2 (Different surfaces) 10 n 10 + 30 (n 2) 2 (Same surface) 50 D-A9l 1, 2 (Different surfaces) 10 n 10 + 40 (n 2) 2 (Same surface) 40 D-A9lV 1, 2 (Different surfaces) 10 n 10 + 30 (n 2) * n = 3, 4, 5 * The D-M9lV/M9lWV/M9lAV/A9lV are mountable on 32 to 63.

MTS

48 48 (63) 0 (10) 40 D-M9, D-M9V 10 (17) 0 0 54 59 (66) 48 58 (65) 5 (12) D-F9W, D-F9WV 10 (17) 0 0 54 59 (66) 48 58 (65) 5 (12) ( ): Denotes the values of D-A9V, D-M9V and D-F9WV.

Compact Cylinder with Lock Series CLQ

CNG YA-03 YA-05 YA-08 YA-10 18 6.8 16 6 42 6.5 10 YA 03 20 9 20 8 50 6.5 12 MNB Applicable air cylinder bore 26 11 25 10 62 8.5 16 31 14 30 12 76 10.5 18 CNA 03 05 08 10 32, 40 50, 63 80 100 Bore size (mm) 32, 40 50, 63 80 100 Mounting bracket U V W Mass (g) Part no.

Free Mount Cylinder for Vacuum Series ZCUK

Proper Tightening Torque Hexagon socket head bolt diameter (mm) M3 M4 M5 M6 Bore size (mm) Proper tightening torque (Nm) 10 16 20, 25 32 1.08 10% 2.45 10% 5.10 10% 8.04 10% 1251 Series ZCUK Standard Stroke Mounting Stroke (mm) Double acting style/Single rod type/Non-rotating rod Applicable cylinder Stroke (mm) Vertical mounting (Body through-hole) Bore size (mm) 10 16 20 25 32 5 10 15

MHC2

A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)

MHC2

A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)

Escapements Series MIW/MIS ø8, ø12, ø20, ø25, ø32 1

MI-A0801-10 MI-A0801-20 MI-A1201-10 MI-A1201-20 MI-A1201-30 MI-A2001-10 MI-A2001-20 MI-A2001-30 MI-A2501-30 MI-A2501-50 MI-A3201-30 MI-A3201-50 MI-A0802-10 MI-A0802-20 MI-A1202-10 MI-A1202-20 MI-A1202-30 MI-A2002-10 MI-A2002-20 MI-A2002-30 MI-A2502-30 MI-A2502-50 MI-A3202-30 MI-A3202-50 MI-A0803-10 MI-A0803-20 MI-A1203-10 MI-A1203-20 MI-A1203-30 MI-A2003-10 MI-A2003-20 MI-A2003-30 MI-A2503

Escapements Series MIW/MIS ø8, ø12, ø20, ø25, ø32 1

MI-A0801-10 MI-A0801-20 MI-A1201-10 MI-A1201-20 MI-A1201-30 MI-A2001-10 MI-A2001-20 MI-A2001-30 MI-A2501-30 MI-A2501-50 MI-A3201-30 MI-A3201-50 MI-A0802-10 MI-A0802-20 MI-A1202-10 MI-A1202-20 MI-A1202-30 MI-A2002-10 MI-A2002-20 MI-A2002-30 MI-A2502-30 MI-A2502-50 MI-A3202-30 MI-A3202-50 MI-A0803-10 MI-A0803-20 MI-A1203-10 MI-A1203-20 MI-A1203-30 MI-A2003-10 MI-A2003-20 MI-A2003-30 MI-A2503

1.63

D-M9W 10 2 pcs. D-M9WV D-M9AV 5 Note 2) 1 pc. 10 2 pcs. 5 Note 2) 1 pc. D-M9A 10 Note 2) 2 pcs. 5 1 pc. D-M9V 5 2 pcs. 5 1 pc. D-A9V 10 2 pcs. 5 1 pc. D-A9 10 2 pcs. 1 pc. 15 D-P3DWA 2 pcs. 15 Note 1) Confirm that it is possible to secure the minimum bending radius of 10 mm of the auto switch lead wire before use.

CQSY/CQ2Y/CM2Y/CG1Y/CA2Y

10 10 14 14 15 17 17 21 21 51 58 58 71 72 8 11 11 13 16 M8 x 1.25 M8 x 1.25 M10 x 1.25 M12 x 1.75 M12 x 1.75 6 7 7 10 10 14 18 18 22 26 11 11 14 17 17 M14 x 1.5 M18 x 1.5 M18 x 1.5 M22 x 1.5 M26 x 1.5 27 30 31 37 40 1/4 3/8 3/8 1/2 1/2 84 90 98 116 126 146 159 170 204 215 RZQ MI W S CEP1 CE1 CE2 ML2B C J G5-S CV MVGQ CC RB J D-X 20Data 10-4-17

CQSY/CQ2Y/CM2Y/CG1Y/CA2Y

10 10 14 14 15 17 17 21 21 51 58 58 71 72 8 11 11 13 16 M8 x 1.25 M8 x 1.25 M10 x 1.25 M12 x 1.75 M12 x 1.75 6 7 7 10 10 14 18 18 22 26 11 11 14 17 17 M14 x 1.5 M18 x 1.5 M18 x 1.5 M22 x 1.5 M26 x 1.5 27 30 31 37 40 1/4 3/8 3/8 1/2 1/2 84 90 98 116 126 146 159 170 204 215 RZQ MI W S CEP1 CE1 CE2 ML2B C J G5-S CV MVGQ CC RB J D-X 20Data 10-4-17

Cylinder with Lock

Bore size B DA DB DL DU DC DX DE DO DR DT DS DH Z DD H10 32 219 40 237 50 268 63 280 80 351 100 371 MB-B03 32 46 42 32 22 10 44 14 62 9 6.6 15 7 33 213 10+0.058 0 40 52 42 32 22 10 44 14 62 9 6.6 15 7 33 231 10+0.058 0 MB-B05 50 65 53 43 30 11.5 60 20 81 10.5 9 18 8 45 260 14+0.070 0 63 75 53 43 30 11.5 60 20 81 10.5 9 18 8 45 272 14+0.070 0 MB-B08 80 95 73 64 45 14 86 30 111 12.5 11 22 10

MXH

Eccentricity 200 mm 1 10 10 0.1 Weight m (kg) Weight m (kg) Weight m (kg) 1 1 20 16 20 16 10 6 20 16 10 6 0.01 0.1 0.1 10 6 0.01 0.001 0.01 80 100 0 20 40 60 80 100 0 20 40 60 80 100 0 20 40 60 Overhang L (mm) Overhang L (mm) Overhang L (mm) Selection Example 1.

Air Slide Table Series MXJ

Lr=40 mm MXJ4 MXJ4 MXJ4 0.03 0.20 0.10 Table displacement amount (mm) Table displacement amount (mm) Table displacement amount (mm) MXJ4-10 MXJ4-10 MXJ4-5 MXJ4-5 MXJ4-5 MXJ4-5 -10 0.08 -10 0.15 MXJ4-10 MXJ4-10 0.02 0.06 MXJ4-5 MXJ4-5 0.10 0.04 0.01 0.05 0.02 20 40 60 0 10 30 50 20 40 60 0 10 30 50 0 10 5 15 Load (N) Load (N) Load (N) MXJ6 MXJ6 MXJ6 0.04 0.10 0.20 Table displacement amount