Air Fittings & Tubing

X M5 male M-5AU-3 Barb fitting M-5UL Soft nylon tube 3.18/2.18 X M3 For polyurethane tube 3.18/2 X M5 M-3ALU-3 P.2.1-51 4/2.5 X M5 Body rotates 360 around the stud axis. polyurethane 3.18/2 X M3 M-5AU-4 For soft nylon and polyurethane tube Universal tee M5 female X M5 female X M5 male Body rotates at 360 around the stud axis 6/4 X M5 M-5AU-6 M-5UT P.2.1-50 soft nylon and polyurethane M-3ALU

Cylinder with Lock

KC MA MB MC MM N N1 P S TT TX TY V W ZZ 32 6 10 17 3 16 4 16 M10 x 1.25 27 27 1/8 143 17 48 49 3.5 6.5 194 40 6 14 22 3 16 4 16 M14 x 1.5 27 27 1/4 157 22 55 58 4.5 9 212 50 7 18 27 4 16 5 16 M18 x 1.5 31.5 31.5 1/4 172 22 68 71 4.5 10.5 234 63 7 18 27 4 16 5 16 M18 x 1.5 31.5 31.5 3/8 184 28 81 81 5.5 12 246 80 10 22 32 5 16 5 17 M22 x 1.5 38 38 3/8 227 34 102 102 7.5 14 303 100 10 26 41

C95

43 14 13 14 M10 x 1.25 20 28 KJ12D 12 50 40 13 16 16 M12 x 1.25 22 32 KJ16D 16 64 50, 63 15 26 21 M16 x 1.5 28 42 80, 100 M20 x 1.5 KJ20D 20 77 25 33 15 26 50 6-12-11 12 ISO/VDMA Cylinder: Non-rotating Rod Type Double Acting, Single/Double Rod Series C95K 32, 40, 50, 63, 80, 100 How to Order C95K B 32 100 W Without auto switch C95KD B 32 100 W A53 S With auto switch Number of auto switches

ZR

-www.stevenengineering.com Components Valve unit + Ejector unit Individual, common and port exhaust style for nozzle size 10, 13 Common and port exhaust style for nozzle size 15 Individual exhaust style for nozzle size 15 M2 x 0.4 x 13 2 2 2 2 2 2 2 4 4 M2 x 0.4 x 23 M2 x 0.4 x 48 M2 x 0.4 x 53 M2.5 x 0.45 x 41 M2.5 x 0.45 x 17 M2.5 x 0.45 x 21 M2.5 x 0.45 x 66 M2.5 x 0.45 x 70 w Common and

Mechanically Jointed Rodless Cylinder MY1H Series Linear Guide Type: ø25, ø32, ø40  Piping can be connected from 4 directions on the head cover.  Allows on-site piping to suit the MY1B installation MY1H MY1H conditions. MY1B MY1M MY1C MY

t of graph MY1H/M3 where 1.4a = 420 mm/s) = 27.6 (Nm) MY1H M3E 1 3 1 3 M3E = x FE x Y = x 268.6 x 29.6 x 103 = 2.65 (Nm) MY1 HT Load factor 5 = M3E/M3E max = 2.65/27.6 = 0.10 FE Y MY1 W M3 6.

CLS

The lock is released by screwing in the manual release bolt until the white mark of the lock monitor on the top of the brake cylinder moves to the FREE position. 140 160 180 200 250 Bore size (mm) 125 M6 x 1.0 x 35l M6 x 1.0 x 40l M8 x 1.25 x 40l M10 x 1.5 x 50l M10 x 1.5 x 55l M12 x 1.75 x 70l Manual release bolt Screw depth 30 32 35 40.5 45 55 In the case the manual release bolt is not

7ND9071en

IEC 60079-0:2011 IEC 60079-1:2007 IEC 60079-31:2008 INMETRO ND_Z NCC 12.0793 X NCC 12.0794 X Ex ia IIC T4/T5/T6 Ga Ex ia IIC T4/T5/T6 Gb Input: Ui 28 V, Ii 120 mA, Pi 1 W, Ci 22 nF, Li 53 H Output: Ui 28 V, Ii 120 mA, Pi 1 W, Ci 22 nF, Li 53 H.

ISO Standards Air Cylinder: Standard Double Acting with End of Stroke Cushioning ø 32, ø 40, ø 50, ø 63, ø 80, ø 100, ø 125 Series CP96

0.45 x 4 L Auto switch mounting screw M5 x 0.8 x 16 L Auto switch Hexagon socket head set screw M4 r Hook Put the auto switch on the surface of the cylinder tube. e w Auto switch mounting band Auto switch Auto switch mounting bracket q D-A44 type Tie-rod Auto switch mounting screw M5 x 0.8 x 16 L Auto switch Cylinder tube Hook 1.

%silltr

(cc) mt 6.10 x 105 inr 0.0610 in' Enrgy 35.320 ff N.m 0.7375 0.0353 lf J 0.7375 o.fi12 gal (U.s.) MJ 0.n7E fi.lb ll.lb rwh L L Powra f.br's t.356 W hp 0.7157 kW L W!lehl ot 28,3i8 b 0.4536 Pouar w 0.7375 kw l.3al W.ighr g O.005il oz k9 2.2046 b ll.lUg np k9 Tlmparaluat qC 5A"F'32) Forca bt 453.6 bt 0,4536 bl ia.4lEa T!npar.hr!

SMC Basic Pneumatics

(cc) mt 6.10 x 105 inr 0.0610 in' Enrgy 35.320 ff N.m 0.7375 0.0353 lf J 0.7375 o.fi12 gal (U.s.) MJ 0.n7E fi.lb ll.lb rwh L L Powra f.br's t.356 W hp 0.7157 kW L W!lehl ot 28,3i8 b 0.4536 Pouar w 0.7375 kw l.3al W.ighr g O.005il oz k9 2.2046 b ll.lUg np k9 Tlmparaluat qC 5A"F'32) Forca bt 453.6 bt 0,4536 bl ia.4lEa T!npar.hr!

JIS Standard Hydraulic Cylinder

x 1.5 C B-series M6 x 1.0 M8 x 1.25 40 145 115 75 60 E 31.5 30 20 24 M30 x 1.5 dH10 L L M6 x 1.0 M8 x 1.25 40 145 115 75 60 31.5 30 20 24 M39 x 1.5 M8 x 1.25 M10 x 1.5 50 185 145 95 80 40 40 25 26 M48 x 1.5 H +0.4 +0.1 D M5 x 0.8 M6 x 1.0 25 76 60 41 32 16 16 12.5 20 M16 x 1.5 M5 x 0.8 M6 x 1.0 31.5 90 70 50 40 20 20 16 20 M20 x 1.5 B J M6 x 1.0 M8 x 1.25 40 145 115 75 60 31.5 30 20 24 C-series

MB1

Width across flats MM W Cushion valve Dimensions D Effective thread H A K ZZ + Stroke H F Width across flats 14 18 22 22 26 31 Bore size (mm) Effective thread length ZZ + Stroke ZZ W MM K H D A 32 40 50 63 80 100 139 146 166 166 192 208 7.2 9.7 10.5 12 14 15 M14 x 1.5 M18 x 1.5 M22 x 1.5 M22 x 1.5 M26 x 1.5 M30 x 1.5 6 7 10 10 10 16 51 58 68 68 74 90 16 20 25 25 30 36 30 35 40 40 40 50 27

CXS

1 5.6 3.2 28 0.2 28 0.2 22.7 35 37 16 6.3 5 12 2-R3.5 4-M3 x 0.5 (Through) 2-M2.5 x 0.45 x 6 (Hexagon socket head cap screw) 2-M3 x 0.5 x 12.5 (Hexagon head bolt) 2-M3 x 0.5 (Hexagon nut) 6 7 4-M3 x 0.5 (Through) 4-M3 x 0.5 with depth 4.5 (Opposite side: Same) W (10) 10 3 2-5.1 8 6 22.5 22.5 (mm) 4-M5 x 0.8 with depth 4.5 (Piping port) (Opposite side: Same) Model W Z ZZ SS S 10 66 103 40

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)

0.5

(Female thread mounting) 104 2 x 3.5, depth 1 12.5 35 25 139 155 (10.5) 20 16.6 40 Bracket IZF21-m-mBmm 122 (104) 2 x 25 90 (155) 4 x 4.5 171.5 143 124 107 47 3 x 5.5 2 x 5.5 40 45 30 30 16 IZF21/31 Series Dimensions IZF31-m-m 4 x M4 x 0.7, depth 6 (Female thread mounting) 2 x 3.5, depth 1 144 55 25 12.5 179 195 36.6 (10.5) 20 40 Bracket IZF31-m-mBmm 162 (144) 90 2 x 25 (195) 4 x 4.5 211.5

CRQ2

I = I + I + I kgm Gripper: I m: Lever mass kg m: Cylinder mass kg m: Gripper mass kg Calculation example When L = 0.2m, D = 0.06m, a = 0.06m, b = 0.03m, m = 0.5kg, m = 0.4kg, m = 0.2kg 0.06 + 0.03 12 I = 0.2 x + 0.2 x 0.2-2 = 0.81 x 10-2 kgm 0.2 3 I = 0.5 x = 0.67 x 10-2 kgm I = (0.67 + 1.62 + 0.81) x 10-2= 3.1 x 10-2 kgm I = 0.4 x + 0.4 x 0.2 = 1.62 x 10-2 kgm 0.06 8 Specific Application

Compact Rotary Actuator Rack-and-Pinion Type/Sizes: 10, 15, 20, 30, 40 Series CRQ2

I = I + I + I kgm Gripper: I m: Lever mass kg m: Cylinder mass kg m: Gripper mass kg Calculation example When L = 0.2m, D = 0.06m, a = 0.06m, b = 0.03m, m = 0.5kg, m = 0.4kg, m = 0.2kg 0.06 + 0.03 12 I = 0.2 x + 0.2 x 0.2-2 = 0.81 x 10-2 kgm 0.2 3 I = 0.5 x = 0.67 x 10-2 kgm I = (0.67 + 1.62 + 0.81) x 10-2= 3.1 x 10-2 kgm I = 0.4 x + 0.4 x 0.2 = 1.62 x 10-2 kgm 0.06 8 Specific Application

Air Cylinder Series CS1 ø125, ø140, ø160, ø180, ø200, ø250, ø300 1

40 90 59 43 18.5 M16 x 1.5 17 36 30.5 M36 x 1.5 39 6-9-34

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

Calculate the moment of inertia of attachment. z r1 Material of attachment: Aluminum alloy (Specific gravity = 37 (mm) r2 = 2.7) A part z1 m1 = 40 x 7 x 8 x 2.7 x 10-6 = 0.006 (kg) Calculation of weight m1 = a x b x c x Specific gravity Moment of inertia around Z1 axis IZ1 = {m1(a2 + b2)/12} X 10-6 Iz1 = {0.006 x (402 + 72)/12} x 10-6 = 0.8 x 10-6 (kgm2) IA = 0.8 x 10-6 + 0.006 x 372 x 10