VCB bracket) are included with the above parts. 3 Direct Operated 2 Port for Heated Water Series VCB Dimensions Grommet: G Conduit: C Q Approx. 300 F D Approx. 280 D Q F C G1/2 C R R E E B A H 2-P Port size 2-P A 2-M Thread depth N B H Port size 2-M Thread depth N L L K K Conduit terminal: T F (Q) 34 25 U R C G1/2 E B A H D 2-P Port size (S) 2-M Thread depth N L K (mm) Electrical entry P Port
W W D E d M a MA Q C A K F NA NB B H S + Stroke M ZZ + Stroke With rod boot e 10 l f h + l ZZ + l + Stroke (mm) Bore size (mm) A a d B C F G GA GB K M MA NA NB R S Q V W T P J MM E D 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 40 17 45 23 10 60 17.5 M8 x 1.25 18 M14 x 1.5 7.5 8 44 18 9.5 13 11 25 20 1/4 14 30 22 37 106 5
2 r Pressure gauge r Outlet Pressure gauge e e Outlet y Fluid release Replacement Parts No. Description Material Applicable model Note) Part No.
2 r Pressure gauge r Outlet Pressure gauge e e Outlet y Fluid release Replacement Parts No. Description Material Applicable model Note) Part No.
Double piston construction achieves compact design with strong gripping force. q r Mounting is possible from 4 directions. e w Model Bore size Gripping force (N) q w MHF2-8D MHZ2-10D 8 10 19 11 MHF2-12D MHZ2-20D 12 20 48 42 w e r MHF2-16D MHZ2-25D 16 25 90 65 MHF2-20D MHZ2-32D 20 32 141 158 12-3-3 4 Series MHF2 Model Selection Model Selection Selection Procedure Confirm gripping force Confirm
Double piston construction achieves compact design with strong gripping force. q r Mounting is possible from 4 directions. e w Model Bore size Gripping force (N) q w MHF2-8D MHZ2-10D 8 10 19 11 MHF2-12D MHZ2-20D 12 20 48 42 w e r MHF2-16D MHZ2-25D 16 25 90 65 MHF2-20D MHZ2-32D 20 32 141 158 12-3-3 4 Series MHF2 Model Selection Model Selection Selection Procedure Confirm gripping force Confirm
Double piston construction achieves compact design with strong holding force. q r Mounting is possible from 4 directions. e w Model Bore size Holding force (N) q w MHF2-8D MHZ2-10D 8 10 19 11 MHF2-12D MHZ2-20D 12 20 48 42 w e r MHF2-16D MHZ2-25D 16 25 90 65 MHF2-20D MHZ2-32D 20 32 141 158 Features 2 Series MHF2 Model Selection Model Selection Selection procedure Confirm gripping force Confirm
7 w @5 q y !3 @3 r t @5 e !1 @1 @1 @4 @6 !4 @6 !4 u @8 !5 @0 !8 !9 i Parts list Parts list Description Material Note Description Material Note No. No.
Fluid Name and Option Option symbol and body material Fluid (Application) Brass B Stainless steel J J H H Q P M H M M P Ethyl alcohol Caustic soda (25% ) Gas oil Silicon oil Steam system (Steam) (Max. 183C) Steam system (Condensation) (Max. 99C) Medium vacuum (up to 0.1 Pa.abs) Parachloroethylene Helium Non-leak (10 6Pam 3/s) Heated water (Max. 99C) A A S E V A V V E Note 1) The leakage
F: Angle adjustment range 5 E: Angle adjustment range 5 E: Angle adjustment range 5 B port Angle adjustment screw A port Clockwise rotation 0 8 0 e Allowable Lateral Load to the Piston Rod End gl 10 n a e nt gl e an m st t en u dj m a m st u ju m i in ad M Using friction fittings makes it easier to mount the load to the piston rod end.
D E D B B1 C BH1 H K A BN N1 F AL H1 MM H1 ZZ + (2 x Stroke) S + Stroke H + Stroke A K AL MB B B1 C B C F N MA With rod boot e e * For one side rod boot type, a rod boot is mounted on the lock side (left side of the drawing above).
float type auto drain With drain guide Q P N.O.: Black Thread size: 1/4 (without valve mechanism) Width across flats 19 Applicable tube O.D.: 10 (NPT threads: 3/8 inch) With float type auto drain With drain guide Port size A B C D E F G H K L M N Model P 255 276 Q 241 262 275 270 80 185 365 288 286 90 188 368 241 262 16 19 129 147 7 9 22 25 95 108 50 55 IDG60V, 60HV IDG75V, 75HV, 100V, 100HV
Determination of load's kinetic energy (E) bore size E > Es E Es Determination of bore size Review of larger bore size E = m E 2 a ( ) 2 = (Refer to page 8-16-8.) 1000 P Ps P > Ps Determination of pressure for intermediate stop (p) (Refer to page 8-16-8.)
Determination of load's kinetic energy (E) bore size E > Es E Es Determination of bore size Review of larger bore size E = m E 2 a ( ) 2 = (Refer to page 8-16-8.) 1000 P Ps P > Ps Determination of pressure for intermediate stop (p) (Refer to page 8-16-8.)
Install the ejector body gasket for manifold t into the gasket groove of the end block L e. 4. Align the ejector assemblies r, end block (R) w, and end block (L) e using positioning pins (at the two a positions) and fasten with a hexagon socket head cap bolts q (2 pcs.) (with a tightening torque of 0.6 Nm0.06 Nm).
9 from the chart above CXSM32-PS CXSL15APS CXSL20APS CXSL25APS CXSL32APS 8-28-21 21 Series CXSJ Construction: Axial Piping CXSJ6P, CXSJ10P e q t w r u y i o Component Parts No.
6 Housing Bumper B q Note) Hard chromium electroplated Carbon steel NBR !7 Piston rod A Piston seal w Note) Hard chromium electroplated Carbon steel NBR !8 Piston rod B Rod seal e Aluminum bearing alloy NBR !
0 Exhaust portr Adjusting springe Upper diaphragmw Upper diaphragm chamberq SIG Lower diaphragmy Lower diaphragm chambert OUT IN1 Springo Valvei Pistonu IN2 56 Series IL201/211/220 Construction 2 12 IL211 IL201 1 r r e t e !2 !2 u t u w w i !9 i !9 q q !7 !7 IN OUT IN1 OUT1 !0 !6 !3 o !3 q !8 !6 IN2 OUT2 !8 !7 !6 o IL220 !3 r e !2 w u y i !9 !5 @1 OUT IN1 !1 q @2 @0 IN2 !