MHZ

MHZAJ2-6D wio!1!3@2@3@4 MHZAJ-A0603 Piston assembly MHZAJ2-6S wo!1!3!

MHZ

MHZAJ2-6D wio!1!3@2@3@4 MHZAJ-A0603 Piston assembly MHZAJ2-6S wo!1!3!

Soft Start-up Valve

2(A) 1(P) 37.5 Bracket (Option) T N M P X Built-in silencer (Option) 3(R) Q S L K R AV5000-A Flow adjustment needle at low speed air supply D D 2 x W 4 x W Y V Y U H H U Dimensions [mm] Standard specifications Port size A B C D E F G H J 1(P) 2(A) 3(R) Model AV2000-m02-1 to 6D/Y(Z)m-A 1/4 1/4 1/4 66 97 47 24.5 40 96 33 Width across flats 22 58 AV3000-m03-1 to 6D/Y(Z)m-A 3/8 3/8 3/8 76 97

MHC2

Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a e B part f d z f1 x.Calculate the inertial moment of the attachment. Assuming the attachment material is aluminium alloy (relative density=2.7), r1= 16.4 (mm).

MHC2

Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com e B part f d z f1 x.Calculate the inertial moment of the attachment.

Angular Air Gripper Series MHC2/MHCA2/MHCM2

Operating equipment: MHC2-6D A part a b c d e f = 20 (mm) = 3 (mm) = 4 (mm) = 4 (mm) = 5 (mm) = 6 (mm) b c a e B part f d z f1 x.Calculate the inertial moment of the attachment. Assuming the attachment material is aluminium alloy (relative density=2.7), r1= 16.4 (mm).

2

)-B/AR25(K)-B t e q IN OUT t Modular F.R.L. e q r IN OUT w r w AC-A AC-B AR30(K)-B/AR40(K)-B q t AR50(K)-B/AR60(K)-B e IN OUT q t r w e IN OUT r w Component Parts No.

IDU/IDF

B 220V Dryer Capacity Model A Part No.

Table of Contents

AL-31S JIS B 2401G35 5 pcs. u O-ring NBR JIS B 2401G35 1 pc. JIS B 2401G35 1 pc. JIS B 2401G35 3 pcs.

Direct Solenoid

NPTF PodLocallon P A B EA EB sP0101/sP01r r 1/B s S sPot0zsP0112 S sP01m/sP0113 1/6 9B S/B S/B s/B S/B sPoto4/sP0114 1/. B B B sPor05/sP011s la S S S Electrictl Conncllons: Class 1 suFplates provide access of alectri(El solenoid leads from the vatue bass inlothe conduitcavitywithinthe sub-platediecasting.

Table of Contents

When P2 + 0.1 b, choked flow P1 + 0.1 293 Q = 600 x C (P1 + 0.1) (1) 273 + t When P2 + 0.1 > b, subsonic flow P1 + 0.1 2 P2 + 0.1 b P1 + 0.1 Q = 600 x C (P1 + 0.1) 1 (2) 1 b 293 273 + t Q : Air flow rate [dm3/min (ANR)], dm3 (Cubic decimeter) of SI unit are also allowed to described by l (liter). 1 dm3 = 1 l .

CATALOG

48.5 63.6 25 89.5 79.5 10 15 ZPR40D 40 43 29 42.5 53.3 71.1 25 97 87 17 15 A P P L I C A B L E T U B E A P P L I C A B L E T U B E Applicable Tube OD P Q R S Applicable Tube OD P Q R S 4 4 23.3 15.8 10.4 6 6 24.3 16.8 12.8 H O W T O O R D E R Z P R P A D H O R I Z O N T A L T Y P E W I T H O U T B U F F E R 6 6 24.3 16.8 12.8 8 8 26.2 18.7 15.2 8 8 26.2 18.7 15.2 ZPR P A D D I A M E T E

A

T I O N A C C E S S O R I E S S E R I E S N C Q 2 / C Q 2 C O I L S C R A P E R X C 3 5 O P T I O N Air XC35 D (N)CQ2 Bore Size 32, 40, 50, 63, 80, 100 Fluid S T R O K E M O U N T I N G B O R E S I Z E Thread Pitch M3 0.5 A C C E S S O R I E S M O U N T I N G K I T S S E R I E S N C Q 2 / C Q 2 A C C E S S O R I E S M O U N T I N G B O L T F O R S E R I E S N C Q 2 / C Q 2 M5 0.8 M6 1 M8

New

B B DIN terminal Conduit terminal F Q Cable 0.24 to 0.47 D S G1/2 1.34 Qp0.08 F (1.73) 1.24 0.99 T C C R R E G1/2 E 2 x P Port size A 2 x P Port size A B1 Sp0.08 B B1 B Conduit Faston type Q F D Q F 0.44 z11 G1/2 0.90 R C C R E E 2 x P Port size A 2 x P Port size B1 A B1 B B Terminal part Faston connector (inch) 250 Series Electrical entry Size Port size Grommet (with surge P A B B1 C D E

Direct Operated Pilot Operated 2-Port Solenoid Valve Refer to pages 7, 9, 11, 25, 35, and 39 for details.

When P2 + 0.1 b, choked flow P1 + 0.1 293 Q = 600 x C (P1 + 0.1) (1) 273 + T When P2 + 0.1 > b, subsonic flow P1 + 0.1 2 P2 + 0.1 b P1 + 0.1 Q = 600 x C (P1 + 0.1) 1 (2) 1 b 293 273 + T Glossary of Terms Specific Product Precautions 54 JSX/JSXm Series Q : Air flow rate [L/min (ANR)] C : Sonic conductance [dm3/(sbar)], dm3 (Cubic decimeter) of SI units = L (liter) b : Critical pressure

7

3 IN(P1) r OUT(P2) VXB B A OUT(P2) A B VXE IN(P1) C C IN(P1) e e q w VXP q w VXD2A VXD2B VXR !4 i VXH !4 u u !0 VXF A B !1 i VX3 !2 !0 !2 VXA o !1 t !3 o OUT (P2) w IN(P1) !3 B r OUT(P2) A r IN (P1) e C e IN(P1) C q w q VXD2E, 2F, 2G VXD2C, 2D Component Parts Operation When coil !

3

When P2 + 0.1 b, choked flow P1 + 0.1 293 Q = 600 x C (P1 + 0.1) (1) 273 + T When P2 + 0.1 > b, subsonic flow P1 + 0.1 VXH VXF VX3 VXA 2 P2 + 0.1 b P1 + 0.1 Q = 600 x C (P1 + 0.1) 1 (2) 1 b 293 273 + T 227 VXS Series Q : Air flow rate [L/min (ANR)] C : Sonic conductance [dm3/(sbar)], dm3 (Cubic decimeter) of SI = L (liter). b : Critical pressure ratio [] P1 : Upstream pressure [MPa

Angle Seat Valve /

When P2 + 0.1 b, choked flow P1 + 0.1 293 Q = 600 x C (P1 + 0.1) (1) 273 + t When P2 + 0.1 > b, subsonic flow P1 + 0.1 2 P2 + 0.1 b P1 + 0.1 Q = 600 x C (P1 + 0.1) 1 (2) 1 b 293 273 + t Q : Air flow rate [dm3/min (ANR)], dm3 (Cubic decimeter) of SI units are also allowed to be described by L (liter). 1 dm3 = 1 L 8 VXB Series C : Sonic conductance [dm3/(sbar)] b : Critical pressure

Model Selection 1

When P2 + 0.1 b, choked flow P1 + 0.1 293 Q = 600 x C (P1 + 0.1) (1) 273 + t When P2 + 0.1 > b, subsonic flow P1 + 0.1 2 P2 + 0.1 b P1 + 0.1 Q = 600 x C (P1 + 0.1) 1 (2) 1 b 293 273 + t Q : Air flow rate [dm3/min (ANR)], dm3 (Cubic decimeter) of SI unit are also allowed to described by l (liter). 1 dm3 = 1 l .

Direct Operated, 2 Port Solenoid Valve, For Water, Oil, Steam, Air, Series VX

When P2 + 0.1 b, choked flow P1 + 0.1 293 Q = 600 x C (P1 + 0.1) (1) 273 + t When P2 + 0.1 > b, subsonic flow P1 + 0.1 2 P2 + 0.1 b P1 + 0.1 Q = 600 x C (P1 + 0.1) 1 (2) 1 b 293 273 + t Q : Air flow rate [dm3/min (ANR)], dm3 (Cubic decimeter) of SI unit are also allowed to described by l (liter). 1 dm3 = 1 l .