Series VG342 is a 3 port pilot poppet solenoid valve and can be used as a selector or divider valve (external pilot). Actuation is changeable between N.C., N.O., or external pilot types. VG342 is possible to use in vacuum or under low pressures.

This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VALVE, SOL, VALVE, VG/VGA VALVE, JA, VG BODY PT 1/2, 1.87000 lb

Series VG342 is a 3 port pilot poppet solenoid valve and can be used as a selector or divider valve (external pilot). Actuation is changeable between N.C., N.O., or external pilot types. VG342 is possible to use in vacuum or under low pressures.

This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VALVE, SOL, VALVE, VG/VGA VALVE, 1A, VG OTHER SIZE RATING, 3.02419 lb

Series VG342 is a 3 port pilot poppet solenoid valve and can be used as a selector or divider valve (external pilot). Actuation is changeable between N.C., N.O., or external pilot types. VG342 is possible to use in vacuum or under low pressures.

This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VALVE, SOL, VALVE, VG/VGA VALVE, JA, VG BODY PT 1/2, 2.45901 lb

This is a legacy product. Please contact us for the latest version.sales@ocaire.com, VALVE, SOL, VALVE, VG/VGA VALVE, JA, VG BODY PT 1/2, 2.41506 lb

Title not found

E!

IIIIIII

06 E Panel lMounting Panel N4ountrng F.tJ T 1 2 3 5 l b s ( 5 6 k 9 ) P T 0 138 in (3 smm) O T 0 079 in (2mm) T T 0 216 in (5 smm) F O F 12 35 lbs (5.6 ks ) P T 0,138 in (3 5mm) O T 0 079 in (2mm) T T 0 216 in (5 Smm) '75 PSIG (5 Kg{/cm2) "75 PSIG (5 Kgt/cm2) A B c D E F G 4.25 (1 08) 2.20 (56) 1 . 3 2 :33.5 0.91 (231 0.24 (6) 0.81 'DN E 0.39 {10) A B c D E F G 4.O7 10s.5 2.03 t51 .5) 1.32

Mechanical Valves Series NVM, NVFM, NVZNI

06 E Panel lMounting Panel N4ountrng F.tJ T 1 2 3 5 l b s ( 5 6 k 9 ) P T 0 138 in (3 smm) O T 0 079 in (2mm) T T 0 216 in (5 smm) F O F 12 35 lbs (5.6 ks ) P T 0,138 in (3 5mm) O T 0 079 in (2mm) T T 0 216 in (5 Smm) '75 PSIG (5 Kg{/cm2) "75 PSIG (5 Kgt/cm2) A B c D E F G 4.25 (1 08) 2.20 (56) 1 . 3 2 :33.5 0.91 (231 0.24 (6) 0.81 'DN E 0.39 {10) A B c D E F G 4.O7 10s.5 2.03 t51 .5) 1.32

WRF100

Contents q Cover L (1 pc.) w Cover R (1 pc.) e Top covers (2 pcs.) r Hexagon head bolts (4 pcs.) t Flat washers (4 pcs.) y Cover mounting bolts (8 pcs.)

Direct Operated Precision Regulator Series ARP20/30/40  Sensitivity: Within 0.2% F.S.  Expanded lineup  ARJ 3 types of set pressure and the body size AR425  Energy saving, Air consumption: allow more freedom in designing a circuit. to 935 80% reduct

q VER e e VEA Figure 2 Backflow Figure 1 Normal VY1 VBA VBAT AP100 When the inlet pressure is higher than the set pressure, the check valve w closes and operates as a normal regulator (Figure 1).

Direct Operated Precision Regulator ARP20/30/40 Series  Sensitivity: Within 0.2% F.S.  Expanded lineup  ARJ 3 types of set pressure and the body size AR425  Energy saving, Air consumption: allow more freedom in designing a circuit. to 935 80% reduct

q VY1 e e VBA VBAT Figure 2 Backflow Figure 1 Normal AP100 When the inlet pressure is higher than the set pressure, the check valve w closes and operates as a normal regulator (Figure 1).

3-Position Rotary Table

9 MSZAA (High precision type) $1 e $0 @7 @1 @9 !0 !2 #2 !6 !4 @4 #3 !8 #7 #8 o #6 q #9 y i $2 @3 @2 #1 @6 #4 #5 Component Parts Note Anodized Nickel plated Chromated Note No.

AME

AFF AMl Related poroducts Mounting Caution q Verify the direction of the flow of the compressed air and the e mark that indicates the inlet of the product before connecting.

ISG

AC 110 12 2 12 3 q e w e t y 220 10 1 10 1.5 440 6 1 3 1 550 5 0.8 2 0.5 r b contact w a contact r q DC 24 3 2.5 3 2.5 C C 48 1.5 1.2 1.5 1.25 When rising pressure q w = ON e r = OFF When rising pressure q e r y = ON q w r t = OFF 110 0.5 0.25 0.5 0.2 220 0.25 0.1 0.25 0.1 Insulation resistance: 100 M or more at 500 VDC by megameter Voltage resistance: 2000 VAC/1 min. 16-9-5 2 Series

ZPT/ZPX

F 4-9.5 F 4-8 4-6 3-6.5 4-5 G 3-4 Y 3.5 Y 6 E E E Y 8 10 6 34 40 18 C C C A B D A A B D B D Dimensions Dimensions Dimensions (mm) (mm) (mm) A B C D E F Y A B C D E F G Y A B C D E F Y Model Model Model ZP40HB ZP63HB ZP100HB 40 41.4 28.4 43.2 20.5 30 13 63 65.1 45.5 67.6 31.5 50 4.5 21.5 100 103.1 68.6 106.7 47.5 80 35.5 ZP50HB ZP80HB ZP125HB 50 51.9 35.7 54 24 40.5 16.5 80 83 58.4 85.1 37

Process Gas Diaphragm Valve

OUTLET INLET Mounting hole Top view (Mounting hole on bottom) Porting Symbols OUTLET (Downstream) INLET (Upstream) 2PW 2PWA 2PWC q q q w 2 PORTS w w 3PWD 3PWE 3PWG 3 PORTS q q q e e e w w w 4PWM q e r 4 PORTS w 1114 A

Air Fittings Fitting Series For Special Environment

O e p u t ) h c n I ( . n i M e l o h . a i d d a e r h T F N U l e d o M H ) . x e H ( D L A M . t W ) f g ( 4 / 1 1 / 5 6 8 1 0 0 7 0 E R K 1 1 / 6 1 ) 6 4 . 7 1 ( 3 6 . 0 ) 6 1 ( 2 5 . 1 ) 5 . 8 3 ( 0 6 . 0 ) 8 0 . 5 1 ( 5 7 . 0 ) 9 1 ( 8 1 . 0 ) 6 . 4 ( 5 3 8 / 3 / 1 8 4 1 0 0 1 1 E R K 1 ) 4 . 5 2 ( 0 8 . 0 ) 3 . 0 2 ( 3 8 . 1 ) 2 4 ( 1 9 . 0 ) 3 2 ( 1 9 . 0 ) 3 2 ( 8 2 . 0 ) 7 ( 3

ML1

Consider q Max. payload, w static moment, e dynamic moment (when stopper collides) when calculating the Max. allowable moment and payload. Evaluate q and w as a (average speed), and e as (collision speed =1.4a). Calculate q (Wmax) from the graph of Max. payload (W1, W2, W3) and calculate w and e (Mmax) from the graph of Max. allowable moment.