Series AP500 The following procedures are an example of how a test may be performed. It is intended as an overview and not as an all inclusive description. 1) Rotate the adjustment wheel counterclockwise (DECR) completely to relieve spring force.
both solenoids located at one end SX Type 41P manifold SX3*40 (Cv=0.22) SX5*40 (Cv=0.53) VQ1*11 (Cv=0.3) VQ plug lead types External pilot valves required SX3*40 (Cv=0.22) SX5*40 (Cv=0.53) SX7*40 (Cv=0.9) VQ0*51 (Cv=0.15) SY3*40 (Cv=0.22) SY5*40 (Cv=0.53) VQ0*51 (Cv=0.15) SY3*40 (Cv=0.22) SY5*40 (Cv=0.53) SY7*40 (Cv=0.9) SX Type 42P manifold Non plug-in valves Porting: Body ported or true
V3 L 1 H 2 4 10 40 Connections Temperature range NPT 1/4 inch 40 to 140F (40 to 60C) (No freezing) 25% to 75% of the scale: 2%F.S.
V3 L 1 H 2 4 10 40 Connections Temperature range NPT 1/4 inch 40 to 140F (40 to 60C) (No freezing) 25% to 75% of the scale: 2%F.S.
) tGauge port (Outlet) 2P 3P 4PL 5PC MPA MPA MPA 1 1 1 0 0 40 2) Other range available.
The following procedures are an example of how a test may be performed. It is intended as an overview and not as an all inclusive description. 1) Rotate the adjustment wheel counterclockwise (DECR) completely to relieve spring force.
-www.stevenengineering.com AL I J AI AJ 4-AK hole V AP X A AA AB R Y + Stroke Z + Stroke AG For 4-AO AN AI Cutout window AM Mounting dimensions Stroke range (mm) Bore size (mm) O N M AJ AI L AO K AH AG AN J AM I AB AA AL B AK AP A 20 M6 x 1 depth 9 45 25 95 80 82 M6 60 125 115 55 112 65 30 11 9 108 12 6.6 25 99 75,100,125,150,200 25 M6 x 1 depth 13 54 35 108 92 100 M8 70 150 134 135 65 75
(40) AS321F-02-08(S)A 8 13.2 22.7 33 14.2 41 (41) AS321F-02-10(S)A 10 15.9 26.7 37 35.7 15.6 42 (42) AS321F-02-12(S)A 12 18.5 29.7 40 34.5 17 43 (43) AS321F-03-06(S)A 6 10.4 21.8 32.1 36.4 50 48.4 44.5 42.9 1/4 19 16.6 13.3 31 (32) AS321F-03-08(S)A 8 13.2 22.7 33 14.2 AS321F-03-10(S)A 10 15.9 26.7 37 28 15.6 32 (33) AS321F-03-12(S)A 12 18.5 29.7 40 26.8 17 34 (35) AS421F-04-10(S)A 10 1/2
Cooling Capacity: 150 (15 kW), Cooling Method: A (Air-cooled), Pipe Thread: N (NPT, w/Rc-NPT Conversion Fitting), Power Supply: 40 [3-phase 380 to 415 VAC (50/60 Hz)]
Cooling Capacity: 15 kW, Cooling Method: Air-cooled, Pipe Thread: NPT, w/Rc-NPT Conversion Fitting, Power Supply: 40 [3-phase 380 to 415 VAC (50/60 Hz)], Option: -
25, 32, 40 10, 20 16 to 40 16 to 40 10, 16, 20 16 to 40 16, 25, 40 16, 25, 40 16, 25 16 to 50 16, 25, 40 6 to 25 10 to 25 25 12 to 40 20 to 32 10, 15, 25 12 to 25 Vol. no.
2.5 to 6 6 to 20 20 to 40 40 to 63 63 to 100 AS13l1F AS13l1F AS23l1F AS33l1F AS43l1F / 1 8, / 1 4 / 1 4, / 3 8 / 1 2 Elbow (Metal Body) M5 6 to 20 20 to 32 20 to 40 40 to 63 63 to 100 AS12l1 AS22l1 AS22l1 AS32l1 AS42l1 / 1 8 4.1-7 / 1 4 / 3 8 / 1 2 In-line 6 to 20 20 to 32 20 to 40 40 to 63 63 to 100 AS1001F AS2001F AS2051F AS3001F AS4001F 4.1-9 Dual Speed Controller 6 to 20 20 to 32 20
(i) Side Entry Single Sub-base for use with the Base Mounted Valve (Type 40). (ii) 2-10 Station Type 20 Mmanifold for use with the Body Ported Valve (Type 20). (iii) 2-10 Station Type 40 Side Entry Manifold for use with the Base Mounted Valve (Type 40). (iv) 2 10 Station Type 40 Bottom Entry Manifold for use with the Base Mounted Valve (Type 40).
2 AQ w t y q i o e ASV AK !0 VCHC ASR ASQ u @0 Meter-in type Meter-out type Component Parts No.
2 AQ q w ASV y t AK i VCHC o ASR ASQ !0 u !5 e Meter-out type Meter-in type Component Parts No.
2 AQ w t y q i o e ASV AK !0 VCHC ASR ASQ u @0 Meter-out type Meter-in type Component Parts No.
It is illustrated with an arrow pointing towards the valve body or an "empty" triangle on the schematic. OUTLET (Downstream) is defined as a port connected to the region above the seat and below the diaphragm.
Select a valve model with an effective orifice area S.
Select a valve model with an effective orifice area S.
1 Air Saving Valve Pressure Valve Flow Valve Series ASR/Series ASQ Air consumption reduction ratio (%) 40 Working stroke pressure (MPa) 40% reduction in air consumption 40% reduction in air consumption 30 0.9 0.7 20 0.5 10 0.3 Cuts air consumption by operating the return stroke at a reduced pressure.