MHZ

(4 locations) (Except 10) E D1 B D2 Model A End boss assembly 0.016 0.043 MHZJ2-10S C K 7 12f8 40 11 15 D2 0.016 0.043 MHZJ2-16S C K 10 16f8 43.5 15 20 0.020 0.053 MHZJ2-20S C K 12 20f8 51.7 19 22 D1 0.020 0.053 MHZJ2-25S C K 15 25f8 61.3 24 25 Other dimensions and specifications correspond to the standard type.

MXS

Load rate Ea= K E max Ea=1 0.11=0.11 Work mounting coeficient K: Fig.3 Max. allowable kinetic energy Emax: Table 1 Kinetic energy (E)Allowable kinetic energy (Ea) Possible to use by E=0.0 3 3-1 Load rate of work Calculate static work Wa (N) Wa=1 X 1 X 4=4 K=1 b=1 Wmax=4 a1=1/4=0.25 Wa=K b Wmax Work mounting coeficient K: Fig.3 Allowable load coeficient b: Graph 1 Max.

Mechanical Valves Series NVM, NVFM, NVZNI

F . 4 6 3 l b s . ( 2 1 k o ) P.T. 0 216 in, (5 5mm) or, 0 039 in (1mm) T T 0 256 in (6 smm) .75 PS|G (5 tuffi 2way 3 way F O F 3.31 lbs (1 5 kg ) T T 900 '75 PSIG (5 Kgf/cm2) A B c D E F G H J K A B c D E F G H J K M N 2.64 (67) 1.95 49.s) 0.96 '24.5) 0.69 '17.5)0.06 (1.s) 0.12 (3) 1.57 (40) 0.96 (24.5) 1.20 130.5) 0.24 (6) 3.31 (ul 2.09 (53) 1 . 1 0 (24\ 1.22 (31) 0.06 (1.5) 0.12 (3) 1.57

IIIIIII

F . 4 6 3 l b s . ( 2 1 k o ) P.T. 0 216 in, (5 5mm) or, 0 039 in (1mm) T T 0 256 in (6 smm) .75 PS|G (5 tuffi 2way 3 way F O F 3.31 lbs (1 5 kg ) T T 900 '75 PSIG (5 Kgf/cm2) A B c D E F G H J K A B c D E F G H J K M N 2.64 (67) 1.95 49.s) 0.96 '24.5) 0.69 '17.5)0.06 (1.s) 0.12 (3) 1.57 (40) 0.96 (24.5) 1.20 130.5) 0.24 (6) 3.31 (ul 2.09 (53) 1 . 1 0 (24\ 1.22 (31) 0.06 (1.5) 0.12 (3) 1.57

CV/MVGQ

Cushion Suffix for cylinder Nil N F Lube type Non-lube type Steel tube J K N R H Nil Nylon tarpaulin Heat resistant tarpaulin Without cushion With cushion on rod end With cushion on head end With cushion on both ends Rod boot D Cushion T Except tubing I.D. 40 Auto switch is not mountable. When specifying symbol more than one, combine symbols in alphabetically.

CV/MVGQ

Cushion Suffix for cylinder Nil N F Lube type Non-lube type Steel tube J K N R H Nil Nylon tarpaulin Heat resistant tarpaulin Without cushion With cushion on rod end With cushion on head end With cushion on both ends Rod boot D Cushion T Except tubing I.D. 40 Auto switch is not mountable. When specifying symbol more than one, combine symbols in alphabetically.

CQ2

Both ends tapped(mm) Standard (Through-hole)/CQ2WB, CDQ2WB Bore (mm) O1 R Both ends tapped: CQ2WA 32 40 50 M6 X 1.0 10 O1 thread R R M6 X 1.0 10 M8 X 1.25 14 2-H thread effective depth C (Opposite side, too) 2-P (Port size) U 4-N through Q Q 8-O counter bore 1 2 width across flats K 11 Lead wire minimum bending radius 10 D D 22 Z M E Auto switch K M L B L+ stroke D-A7, A8 E J S A+stroke

MXS Series Air Slide Table

Load rate Ea= K E max Ea=1 0.11=0.11 Work mounting coeficient K: Fig.3 Max. allowable kinetic energy Emax: Table 1 < = Possible to use by E=0.09 Ea=0.11 Kinetic energy (E) Allowable kinetic energy (Ea) < = 3 3-1 Load rate of moment Wa=K Wmax Work mounting coeficient K: Fig.3 Allowable load coeficient : Graph 1 Max.

Series CM2-Z 10-/11- ø20, ø25, ø32, ø40 21-/22- Air Cylinder

Relief port (10-, 21-) Vacuum port (11-, 22-) Effective thread length FL NA Width across flats B2 G H2 NN Width across flats KA G Width across flats B1 H1 MM NA 20, 25 Eh8 D Standard port 45 Relief port (10-, 21-) Vacuum port (11-, 22-) 1.5 A AL K ZZ + Stroke S + Stroke H F 32, 40 (mm) ZZ H H2 H1 S P I G E D A 12 10 8 6 KA MM NA NN B1 B2 Bore size 13.5 10.5 10.5 10.5 FL K AL F 8 13 0 1/8

SMC Pneumatic Clean Series

Width across flats B1 2-NN MM MM NA 20, 25 2-Eh8 D D Standard port 45 45 Relief port 1.5 AL 1.5 AL A F K K N N F A H + Stroke H S + Stroke ZZ + 2 x Stroke 32, 40 (mm) AL F K MM NA NN ZZ Bore size S P N I G E A 41 32 32 26 B2 H2 22 17 17 13 B1 21 19.5 19.5 15.5 D H H1 8 13 0 14 12 10 8 20-0.033 24 22 22 18 40 32 25 20 M14 x 1.5 M10 x 1.25 M10 x 1.25 M8 x 1.25 42.5 34.5 30 24 21.5 15 15 15

Direct Operated Precision Regulator/Modular Style (For Special Applications) - ARP20 to - ARP40 Direct Operated Precision Regulator with Backflow Function/Modular Style (For Special Applications) - ARP20K to - ARP40K 10 20 21 10 20 21 10 20 21 10 20 21

ARP20/30/40 Construction ARP20(K)/30(K)/40(K) ARP20K/30K/40K (With backflow function) r q 1 I N e C SM 2 OUT A A IN OUT t A-A BLEED w y Note Component Parts Material No.

JIS Standard Hydraulic Cylinder Series CH2E/CH2F/CH2G/CH2H

Rod series (mm) B series rod C series rod Bore size (mm) MM A MA D E K G H ZZ MM A MA D E K G H ZZ 32 34 M16 x 1.5 25 22 18 7 14 55 207 0.025 0.064 40 40 36 M20 x 1.5 30 27 22.4 9 19 60 212 M16 x 1.5 25 22 18 7 14 55 207 0.025 0.064 50 46 40 M24 x 1.5 35 32 28 11 24 65 231 M20 x 1.5 30 27 22.4 9 19 60 226 63 55 46 M30 x 1.5 45 42 35.5 13 30 80 257 M24 x 1.5 35 32 28 11 24 70 247 0.030 0.076

Stopper Cylinder

) Bore size: 32, 40, 50 M E J 2 x P (Rc, NPT, G) T 0 0.1 D Q F Z Stroke M E J T 0 0.1 D Width across flats K A + 2 stroke B + Stroke V H + Stroke 2 x P (Rc, NPT, G) E M 4 x N through 8 x O counterbore Q F Z Stroke T 0 0.1 Width across flats K A + 2 stroke B + Stroke V H + Stroke D M E J E M 4 x N through 8 x O counterbore Width across flats K A + 2 stroke B + Stroke V H + Stroke T 0 0.1 D

ARM10/11

AL SMC SMC SMC SMC SMC SMC 0.1 0.3 0.2 0.4 0.5 0.6 IS1000 MPa SMC SMC SMC K K K P P P C C C U U U O O O SMC SMC SMC SMC S S S L L L H H H MADE IN JAPAN K K K P P P C C C U U U O O O S S S L L L H H H Mixed manifold Mixed manifold Front handle/Bottom ported Front handle/Top ported Common exhaust type and individual exhaust type can be mounted on the same manifold base.

ARM10/11

AL SMC SMC SMC SMC SMC SMC 0.1 0.3 0.2 0.4 0.5 0.6 IS1000 MPa SMC SMC SMC K K K P P P C C C U U U O O O SMC SMC SMC SMC S S S L L L H H H MADE IN JAPAN K K K P P P C C C U U U O O O S S S L L L H H H Mixed manifold Mixed manifold Front handle/Bottom ported Front handle/Top ported Common exhaust type and individual exhaust type can be mounted on the same manifold base.

Magnetically Coupled Rodless Cylinder Series CY3 B R /CY1 1

9200-www.stevenengineering.com 120 K 6cos + 2 (3.4 + Lo) sin 25 CX F: Drive (from slide block to position Lo) resistance force (kg) Lo: Distance from mounting surface to load center of gravity (cm) 210 K 7cos + 2 (4.2 + Lo) sin Angle k to 45 1 to 60 0.9 to 75 0.8 to 90 0.7 32 D400 K 8cos + 2 (5.1 + Lo) sin Angle coefficient (k): k = [to 45 (= )] = 1, [to 60] = 0.9, [to 75] = 0.8, [to

CL

J K Nylon tarpaulin 60C 110C Heat resistant tarpaulin Maximum ambient temp. for the rod boot itself.

Tie-rod Type Hydraulic Cylinder

TR d d W D E E D TY W TDe8 MA a MA a C NA F K A A K F NA B H S + Stroke H + Stroke TX 0 0.5 ZZ + 2 strokes TZ (mm) Bore size (mm) A B C TR a E D TDe8 d F G GA J K M MA MM NA P R S T H 0 0.018 0 0.021 0 0.021 0 0.021 0 0.025 0 0.025 0 0.025 0 0.062 0 0.062 0 0.074 0 0.074 0 0.074 0 0.074 0 0.087 0.032 0.059 0.032 0.059 0.032 0.059 0.040 0.073 0.050 0.089 0.050 0.089 0.050 0.089 40 17 45 R0.5

Series VQ1000/2000 10- 21- 5 Port Solenoid Valve

Combination of [B] and [K] is not possible.

NCQ8

Brown Brown Load Load Switch 1 Switch 1 Blue Blue Brown Brown Switch 2 Switch 2 Blue Blue Load voltage at OFF = Leakage current x 2 pcs. x Load impedance = 1 mA x 2 pcs. x 3 k = 6 V Example: Load impedance is 3 k.