Stainless Steel High Vacuum, Angle/In-line Valve, Angle type Series XM, In-line type Series XY

B K S M J H G A (mm) Model A 123 170 183 217 256 B 48 66 79 100 117 C 1 2 2 3 3 D 40 55 75 87 114 Fn 95 110 Fd 70 114 Fc 26 41 52 70 83 G 41 63 68 72 98 H J K P.C.D L1 6-6.6 8-8.4 L2 XMD-25 XMD-40 XMD-50 XMD-63 XMD-80 50 65 70 88 90 16 20 20 20 20 7.5 15 17.5 19.5 26.5 P.C.D 58.7 P.C.D 92.1 C D XYD/In-line type G Fd C (K flange) J K H B S M 45 A Fn (KF flange) E K (mm) Model A 86.7

CG5-S

B A A B B D 6 Sodium hydroxide (30%, Room temperature) Inorganic alkali A D C D A A 7 Calcium hydroxide A D A A C A 8 Magnesium hydroxide A B A A B A 9 Acetylene A A A A A A 10 Formic acid (25%, Room temperature) C C B C C D 11 Organic solvent Citric acid C C D A B A 12 Acetic acid (10%, Room temperature) A A C B B C 13 Lactic acid (5%, 20C) A A B B D A 14 Linseed oil C A C B A A 15 Potassium

CG5-S

B A A B B D 6 Sodium hydroxide (30%, Room temperature) Inorganic alkali A D C D A A 7 Calcium hydroxide A A A D C A 8 Magnesium hydroxide A A A B B A 9 Acetylene A A A A A A 10 Formic acid (25%, Room temperature) C C C C B D 11 Organic solvent Citric acid A B C C D A 12 Acetic acid (10%, Room temperature) B B A A C C 13 Lactic acid (5%, 20C) A B A B D A 14 Linseed oil A C C B A A 15 Polassium

IIIIIII

A B c D E F G H J K M N 4.37 : 1 1 1 1 3 . 1 5 (80) 1 . 1 0 (2Al 1.22 (31)0.06 (1.5) ',.12 {3) 1.57 (40) 1.06 (271 1.42 (36) 1.26 (321 1.20 30.5' ).2t (6) Millimeters in Parentheses F O,F 7.05 lbs (3 2 kg) T T 90' '75 PSIG (5 Kgflcm2) A B c D E F G H J K ll N A B c D E F G H J K M N o 4.5() 114.31 3.30 83.8) 1.25 t31.8 1.20 (30.5) 0.89 '22.5) 0.06 (1.s) ). 12 (3) 1.57 (40) .42 (36) 1 2 6

Mechanical Valves Series NVM, NVFM, NVZNI

A B c D E F G H J K M N 4.37 : 1 1 1 1 3 . 1 5 (80) 1 . 1 0 (2Al 1.22 (31)0.06 (1.5) ',.12 {3) 1.57 (40) 1.06 (271 1.42 (36) 1.26 (321 1.20 30.5' ).2t (6) Millimeters in Parentheses F O,F 7.05 lbs (3 2 kg) T T 90' '75 PSIG (5 Kgflcm2) A B c D E F G H J K ll N A B c D E F G H J K M N o 4.5() 114.31 3.30 83.8) 1.25 t31.8 1.20 (30.5) 0.89 '22.5) 0.06 (1.s) ). 12 (3) 1.57 (40) .42 (36) 1 2 6

MB1

The kinetic energy of a load can be found using the following formula. 20 10 5 M 100 300 1000 2000 500 M 2 2 Ek = Maximum drive speed (mm/s) Ek: Kinetic energy (J) M: Weight of load (kg) : Piston speed (m/s) Example) Find the rod end load limit when a 63 air cylinder is operated at a maximum drive speed of 500mm/s.

JXCx-OMU0026

JXC-OMU0026 Supplement 1.3 Initial setting of LES(H) series Model LES(H)8 LES(H)16 LES(H)25 Lead symbol J K J K J K Lead [mm] 8 4 10 5 16 8 Max. speed [mm/s] 400 200 400 200 400 200 Min. speed [mm/s] (Independent and interpolation) 20 10 20 10 20 10 Min. speed [mm/s] (Speed tuning control) 25 13 27 14 30 15 Supplement 1.4 Initial setting of LEP series Model LEP8 LEP16 Lead symbol J K J K

VCL

VCHm Dimensions: Bracket VDW VQ A J LVM 4 x G C 1.5 VCA VCB VCL B D L E VCS VCW 4 x H Valve mounting hole F Bracket Mounting Dimensions/Bracket Material: Stainless Steel (mm) B C D E F G H J L A Bracket part no.

mb1

MM 2-RcP G G MM D D e e Effective thread Effective thread 13 13 9 A K f N N f h + Stroke K A l + Stroke 9 l ZZ + 2 strokes S + Stroke h Without Air Cushion Stroke range Bore size (mm) Effective thread length Width across flats MB J K MM N P V W S ZZ S ZZ A C B D Ee11 F G H 32 40 50 63 80 100 4 4 5 5 5 5 M6 x 1 6 6 7 7 10 10 M10 x 1.25 26.5 26.5 31 31 37.5 37.5 1/8 1/4 1/4 3/8 3/8 1/2 84

70astamb1

across flats MB J K MM N P V W S ZZ S ZZ A C B D Ee11 F G H 32 40 50 63 80 100 4 4 5 5 5 5 M6 x 1 6 6 7 7 10 10 M10 x 1.25 26.5 26.5 31 31 37.5 37.5 1/8 1/4 1/4 3/8 3/8 1/2 84 84 94 94 114 114 178 186 210 210 258 258 90 90 102 102 124 124 184 192 218 218 268 268 32.5 38 46.5 56.5 72 89 12 16 20 20 25 30 30 35 40 45 45 55 13 13 14 14 20 20 47 51 58 58 72 72 46 52 65 75 95 114 22 30 35 35 40

JXCx-OMT0002

JXC-OMT0002-C Model LEFS40 Lead symbol H A B Lead [mm] 30 20 10 Stroke (mm) 1200 1000 1100 1200 1000 1100 1200 Max. speed [mm/s] 500 500 410 340 250 200 170 Min. speed [mm/s] (Independent and interpolation) 30 20 10 Min. speed [mm/s] (Speed tuning control) 49 33 17 Supplement 1.3 Initial setting of LES(H) series Model LES(H)8 LES(H)16 LES(H)25 Lead symbol J K J K J K Lead [mm] 8 4 10 5 16

Cylinder with Lock Series CLS

10 10 10 10 RLQ D-A59W 17 17 17 17 17 D-Y59/Y69 D-Y7P/Y7PV D-Y7W/Y7WV D-Y7BAL MLU D-A3/A44 D-G39/K39 BS1-125 BS1-140 BS1-200 BS1-160 BS1-180 12 13 7 7.5 8 MLGP D-Z7/Z80 D-Y5/Y6 D-Y7P/Y7PV D-Y7W/Y7WV D-Y7BAL D-F5/J5/F59F D-F5W/J59W D-F5BAL/F5NTL BS4-125 BS4-125 BS4-160 BS4-180 BS4-200 ML1C 5 5 5.5 6 6 D-G39/K39 11 11 10 10 10 [Mounting screw set made of stainless steel] Since this is a guideline

NAAMS Standards Compliant

95.0 80.0 65.0 50.0 150.0 120.0 116.0 0.8 50 mm offset: Machined 25 mm offset: Machined A B A C B 6H6 through +0.008 0 D C E 6H6 through +0.008 0 D F 200.03 10 E G F 200.03 10 G 300.025 300.025 9 through H 300.025 300.025 I 250.05 9 through J H 250.05 I 45 M6 x 1.0 R45 500.05 M6 x 1.0 750.05 6.5 18 R25 10 3 10 1 1 6.5 R6 R25 19 18 19 R25 19 [mm] R6 19 [mm] Model NAAMS code A B C D E F G H

Series MXP Precision Air Slide Table

A A F F A F L L L 1 N = 0.2248 lbf 6 6 6 L=80mm L=80mm L=80mm 0.05 0.06 MXPJ6-5 MXPJ6-10 MXPJ6-5 MXPJ6-10 MXPJ6-5 MXPJ6-10 MXPJ6-5 MXPJ6-10 0.04 MXPJ6-5 MXPJ6-10 MXPJ6-5 MXPJ6-10 0.05 0.04 Table deflection (mm) Table deflection (mm) Table deflection (mm) 0.03 0.04 0.03 0.02 0.03 0.02 0.02 0.01 0.01 0.01 0 10 20 30 40 Load (N) 0 10 20 30 50 Load (N) 0 10 20 30 40 Load (N) 40 10 10 10 L=100mm

Title not found

2 Sizes 10 to 25: MHZ 2 Sizes 32 & 40: MHZ 2 .,rr,"""^ J Number of fingers Action Bas c iype End boss side porled' End boss arialonelouch ftlin91 " End boss axal M5 porlr j S nsle-acling on y Throug F a t 'D S actori, basic and N type nnges only " basrcancr N lype iingers onry ' [ , l t o 2 c o n p " l b l p o l 0 l o o 2 5 n r b o r F n / ' o J I I a o a a a a a a a a a a a a a a a a a

Vacuum Unit Ejector / Vacuum Pump System

) ZK2-RL1-A (18) Lock nut(10 pcs. per set) ZK2-LN1-A -36No.

Square Tube Type Air Cylinder Series MB1

The kinetic energy of a load can be found using the following formula. 20 10 5 M 100 300 1000 2000 500 M 2 2 Ek = Maximum drive speed (mm/s) Ek: Kinetic energy (J) M: Weight of load (kg) : Piston speed (m/s) Example) Find the rod end load limit when a 63 air cylinder is operated at a maximum drive speed of 500mm/s.

Rotary Gripper Series MRHQ

6.5 through 2 x 11 depth of counter bore 2.8 8 46 101 10 Angle adjustment bolt +0.030 0 3 x 5H9 depth 6 (one each on three sides) 12 2 50h9 0 0.062 +0.030 0 3 x 5H9 long groove depth 4 (one each on three sides) M5 x 0.8 Port A M5 x 0.8 Port B 4 x M6 x 1 depth 10 I N J E A D P A A M N 16.5 27 6.5 8 17.5 26 SMC R R 16 8 E O P T P A I R R Y G A R I 48 36 Side A Side B 728 Rotary Gripper Series

JXCx-OMT0001CN

1100 1200 1000 1100 1200 mm/s 500 500 410 340 250 200 170 [mm/s] () 30 20 10 [mm/s] () 49 33 17 1.3 LES(H) LES(H)8 LES(H)16 LES(H)25 J K J K J K [mm] 8 4 10 5 16 8 mm/s 400 200 400 200 400 200 [mm/s] () 20 10 20 10 20 10 [mm/s] () 25 13 27 14 30 15 1.4 LEP LEP*8 LEP*16 J K J K [mm] 8 4 10 5 [mm] 25 25 mm/s 300 250 150 350 250 200 [mm/s] () 20 10 20 10 [mm/s] () 25 13 27 14 -109No.JXC-OMT0001CN-C

MICRO MIST SEPARATOR

Port thread Rc Rc G G NPT C2SF-6(Z)-A NPT C2SF-6C(Z)-A C2SF-6-A C2SF-6C-A Option Semi-standard Semi-standard Semi-standard Part no. Part no. Port thread Port thread Rc C2SF-J-A Rc C2SF-CJ-A G C2SFF-J-A G C2SFF-CJ-A NPT C2SFN-J(Z)-A NPT C2SFN-CJ(Z)-A External appearance drawing and part no. B B Semi-standard Semi-standard Part no. Part no.