EX510 (not insulated) Common for driving a load () +24 V CN2, 3, 4 4 Output OUT0 Common for driving a load () OUT5, 10, 15 Common for driving a load () OUT4, 9, 14 Common for driving a load () OUT3, 8, 13 Common for driving a load () OUT2, 7, 12 Common for driving a load () OUT1, 6, 11 q w e r t y u i o !
Z Y69BZ Note 2) Solid state auto switches marked with a "" are produced upon receipt of order.
Z Y69BZ Note 2) Solid state auto switches marked with a "" are produced upon receipt of order.
NDH10 MM MM MM NDH10 MM L L R1 R1 R1 R R R1 R R E1 E1 E1 E1 U1 NX NX A1 U1 A1 L1 U1 A1 NX U1 A1 L1 NX L1 NZ A L1 A NZ A A ND Part no. Applicable bore size (mm) A A1 E1 L1 MM U1 NX NZ L Applicable A Applicable bore size (mm) MM R1 U1 NDH10 NX R1 R Part no. R pin part no.
Check using a feeler gauge that the clearance between the position indicator (109) and the electronics cover is 1 mm. 7 ND90 71 en 17 N O I T A C O L S U O D R A Z A H N O I T A C O L S U O D R A Z A H N O N ND9000H Valve Positioner Position Transmitter X300 Ui (Vmax) = 28 V Ii (Imax) = 120 mA Pi (Pmax) = 1 W Li = 53 uH Ci = 22 nF Ex i Barrier + 1 Uo (Voc) 28 V Io (Isc) 120 mA Po 1 W
kgm2 Inertial moment around Z axis of attachment A part IA MHR kgm2 Inertial moment around Z axis of attachment B part IB m1 m2 r1 r2 Weight of attachment A part kg MHK Weight of attachment B part kg Distance between axes Z and Z1 mm MHS Distance between axes Z and Z2 mm MHC Limiting Range of Attachment Inertial Moment MHT MHC2-6D/MHCA2-6D MHY Finger opening and closing speed Allowable inertial
Definition Unit Z Central axis of finger rotation MHZ Z1 Axis which contains center of gravity of attachment A part and is parallel to Z Axis which contains center of gravity of attachment B part and is parallel to Z Z2 MHF kgm2 Total inertial moment of attachment I kgm2 Inertial moment around Z1 axis of attachment A part IZ1 MHL kgm2 Inertial moment around Z2 axis of attachment B part IZ2
Vertical actuation (Speed control) I II P2 W A P1 a B A P0 P0 a A W (1) Basically, meter-out control is used. Combine meter-in control to reduce sudden movement. (1) Basically, meter-out control is used.
around the Z axis of B part of attachment Axis on the center gravity of A part of attachment and parallel to Z kgm2 Axis on the center gravity of B part of attachment and parallel to Z Z2 Weight of A part of attachment kg kgm2 Weight of B part of attachment kg Total moment of inertia for attachment Z1 Distance between Z and Z1 axis mm Inertia moment around the Z1 axis of A part of attachment
1/2(15 A) 3/4(20 A) 1(25 A) Weight(Body) *9 Approx.
Caution indicates a hazard with a low level of risk which, if not avoided, could result in minor or moderate injury. Caution: Warning indicates a hazard with a medium level of risk which, if not avoided, could result in death or serious injury. Warning: Danger : Danger indicates a hazard with a high level of risk which, if not avoided, will result in death or serious injury.
Clevis pin, flat washer and cotter pin are shipped together. 10-15-73 Series CVS1 Center Trunnion Style: CVS1T Lube type (CVS1T), Non-lube type (CVS1TN) With rod boot Width across flats B1 Z + l + 1/2 stroke Z + 1/2 stroke Connection port A ZZ + l + Stroke h + l S + Stroke ZZ + Stroke Stroke range (mm) Bore size (mm) TDe8 15 0.032 0.059 15 18 25 25 N S K M MM A C HX AL D J B E B1 F H1 40
NDH10 MM MM MM NDH10 MM L L R1 R1 R1 R R R1 R R E1 E1 E1 E1 U1 NX NX A1 U1 A1 L1 U1 A1 NX U1 A1 L1 NX L1 NZ A L1 A NZ A A ND Part no. Applicable bore size (mm) A A1 E1 L1 MM U1 NX NZ L Applicable A Applicable bore size (mm) MM R1 U1 NDH10 NX R1 R Part no. R pin part no.
Modular Type Lubricators Series AL AC-A Lubricator Series AL Model AF-A Port size Option AF-A AL10 M5 x 0.8 AR-A AL20 1/8, 1/4 AL-A AL30 1/4, 3/8 AW-A AL40 1/4, 3/8, 1/2 Bracket AC AL40-06 3/4 AF AL50 3/4, 1 AF AL60 1 Pages 508 through to 513 AR AL AL AW AG E AV AF 507 Lubricator AL10 to AL60 Symbol Lubricator AL20 AL40 How to Order AL 30 03 B Option/Semi-standard: Select one each for a
Mounting side Closed C B A A Open D Open E F F Mounting side MHL2-25DZ-X86/X86A MHL2-25D Z-X86/X86A 1 2 200 200 160 160 Gripping force [N] Gripping force [N] Pressure 0.6 MPa Pressure 0.6 MPa 0.5 MPa 120 120 0.5 MPa 0.4 MPa 0.4 MPa 80 80 0.3 MPa 0.3 MPa Closed F (Fingers closed) 40 40 0 0 40 80 120 160 200 0 0 40 80 120 160 200 [mm] Model A B C D E F Weight [g] MHL2-25DZ-X86(A) 9 106 128
x g x Y m3 x g x Z y z M2 z Y m3 x g x X m4 x g x Y M3 m4 x g g: Gravitational acceleration Dynamic Moment z Mounting orientation Horizontal Ceiling Wall Vertical M1 x a x mn x g 1.4 100 Dynamic load FE 1 3 a Dynamic moment M1E x FE x Z a M2E Dynamic moment M2E is not generated. 1 3 M3 M3E Note) Regardless of the mounting orientation, dynamic moment is calculated with the formulas above.
M2 z y z CY1S m4 x g x Y m3 x g x X Y M3 m4 x g CY1L g: Gravitational acceleration CY1H Dynamic Moment CY1F CY1F z CYP Mounting orientation Horizontal Ceiling Wall Vertical M1 x a x mn x g 1.4 100 Dynamic load FE 1 3 Dynamic moment a x FE x Z M1E a Dynamic moment M2E is not generated.
m3 x g Vertical mounting Mounting orientation Horizontal Ceiling Wall Vertical m1 m2 m3 m4 Static load m M3 M1 m1 x g x X m2 x g x X m4 x g x Z Static moment M1 m1 x g x Y m2 x g x Y m3 x g x Z y z M2 z Y m3 x g x X m4 x g x Y M3 m4 x g g: Gravitational acceleration Dynamic Moment z Mounting orientation Horizontal Ceiling Wall Vertical M1 x a x mn x g 1.4 100 Dynamic load FE 1 3 a Dynamic