ALF400 to 900, ALT-5/-9 Description Material Note ALF400,400-06 ALF500/600 ALF800/900 Platinum silver painted Body Housing Aluminum die-casted Aluminum casted Aluminum die-casted q w Platinum silver painted Replacement Parts No. Description Material Part no.
Description Material Note Platinum silver painted Body Aluminum die-casted q Black painted Bonnet Aluminum die-casted w Always bleeding Replacement Parts No. Description Material Part no.
Actuating force F1 is applied to the top surface of pressure regulation piston r by the pilot pressure (pilot valve assembly q: VY1D B 00-00), and actuating force F2 is applied to the bottom surface of the piston by the port A pressure that pases through the feedback passage. Thus, the port A pressure that corresponds to the pilot pressure is established.
0 e New PFA q Body New PFA w Sensor Super PFA e Tube PPS r Housing A PPS t Housing B PPS y Housing C POM u Bushing PPS i Cap FKM o Gasket FKM !0 O-ring Stainless steel 304 !1 Thread PVC !2 Lead wire !1 q t i PF2D540 o !0 u !0 !2ywr e !
Description Material Bronze Note Clear coated Cover assembly Body q Platinum silver painted Aluminum alloy Brass w e Plate assembly Valve element Piston assembly Return spring Pilot solenoid valve Valve material (NBR, FKM, EPR) Stainless steel or brass Valve material (NBR, FKM, EPR) r t y u Aluminum alloy Piano wire Note) Parts e and r are for selection of valve composition.
N) Steam (S,Q) Oil (Std.) VX3235-00 VX3335-00 3 1.1 0.25 0.27 AC DC 60 40 1 99 60 120 183 Maximun VX3245-00 40 1.6 0.20 0.38 4 20 VX3345-00 Minimum AC, DC Ambient temperature (C ) 40 10 Operating fluid temp.
Q=226S P(P2+0.1013) Sonic flow : P1+0.10131.89(P2+0.1013) Q=113S(P1+0.1013) Q : Flow rate [ /min(ANR)] S : Effective area (mm2) P : Pressure differential (P1-P2) [MPa] P1 : Upstream pressure [MPa] P2 : Downstream pressure [MPa] When the air temperature is different, multiply the flow rate calculated with the above formula by the following coefficient for compensation. -20 1.08 -10 0 10 30
How to Find the Flow Rate (at air temperature of 20C) Subsonic flow when P1 + 0.1013 < 1.89 (P2 + 0.1013) Q = 226S P(P2 + 0.1013) Sonic flow when P1 +0.1013 1.89 (P2 + 0.1013) Q = 113S (P1 + 0.1013) Q: Air flow rate [l/min(ANR)] S: Effective area (mm) P: Pressure drop (P1-P2) [MPa] P1: Upstream pressure [MPa] P2: Downstream pressure [MPa] Maintenance Correction for different air temperatures
SY DIN rail mounting bracket Body SYJ Ring Positioning key VK VZ VT VT A q VP B w VG VP wWiring Specifications Mounting Terminal No./Lead wire color Positioning key Lead wire color 1) Hook side B of the manifold base on the DIN rail. 2) Press down side A and mount the end plate on the DIN rail. Tighten the clamp screw on the side.
t0 I Recommended Circuits I q+"'"' A,.r rr.nv . . . 1 1 I I I Construction/Parts List .12 l J l / 18-20 I nuto Switch Specif ications . .21 I nuto Switch Circuit Diagrams. .22 I Ruto Switch Dimensions/Operating Range .23 I Ruto Switch Connection . .24 I Ruto Switch MountinS. . .25 r"-"--'-""' I Annaccnriac I Pranar riinne .26 r "-"-" tri*,t l x}$x:? xxxs !
Mounting Amplifier Single mounting Ho.izontally Q r A vertica,,y F Multiple mounting + -f -t] + -ti n n n h n t t t l t t l t I i u ! L l !
oN Opd.tion: 360 it60 131) 130 360 360 130 150 150 r5n 150 1 1 0 150 150 i $'q (46.C) (4.5) 0,177 t'r.5) (10) 0.39,1 ool (5) (5) .) 0346 19.81 0.543 03.31 03.q M6di4 air {lub.i*td d 0ll.16}, .nd non.flflm.blo mn.torlci non{orcs!.
l \ l l / v \ d l / t , . 1 , \ 1 b d t / . , , . , \ 1 6 -;i;-5*1-rTNVZ3420 NVZ3440 ^^n+irrr. umiint^ 4r&.q+\rh *"s* NVZs120-OM-M5 NVZ3140-OM-017 NVZ3540 Wry NVZ352O Model Body type )a of aqtuation ry:,:' sl:c i 2 position Single N\23120-OO-n5 o.2 0.17 Double Nvzlt220-OO-r5 o.2 0.26 (120) 3 position Closed center N\rz3it20-OO-[|5 0.18 0.43 (195) 10-32 Nom.
SX90/090 Series CAT.ES70-59A Low Profile 2/3-Port Solenoid Valve SX90/090 Series How to Order SX9 1 5 G 2-port valve q SX090 5 G 3-port valve w e r q Type of actuation w Power-saving circuit e Rated voltage r Electrical entry 1 Normally closed 2 Universal Nil Without power-saving circuit Y1 With power-saving circuit 5 24 VDC 6 12 VDC G Grommet (Lead wire length: 300 mm) Specifications Model
Description TBR-1,2,3,4 TBR-A167 q Side plate PP TBR-1 TBR-A188 TBR-2 TBR-A168 w Branch pipe ABS TBR-3 TBR-A169 TBR-4 TBR-A170 TBR-1 TBR-A183 TBR-2 TBR-A184 e Fixing rod ABS TBR-3 TBR-A185 TBR-4 TBR-A186 TBR-1,2,3,4 TBR-A187 r Fixing plate PP 534
Description Material Note Clear hard anodized Aluminum alloy Magnet A Inner cover Rare earth magnet @3 q Zinc chromated NBR Piston side yoke Cylinder tube gasket Rolled steel plate @4 w NBR O-ring @5 15: Electroless nickel plated, 32: Chromated Piston Brass/Aluminum alloy e NBR O-ring @6 Carbon steel Piston seal r Steel ball @7 NBR Polyurethane Wear ring A t Bumper @8 Special resin Nickel
Note 6) ( ) values insides denote the air passage for normally open type. 4-12-8 3 Port Solenoid Valve Series VQ100 Construction q e r t u w V100 SY SYJ VK y VZ i VT VP R A P VG o VP S070 VQ VKF VQZ (For N.C. valve) VZ Component Parts VS Description Material Resin Stainless steel Stainless steel, Resin Stainless steel NBR Carbon steel NBR No. q w e r t y u i Solenoid coil Body Fixed iron
heat C: 4.2 x 103 J/(kgK) Q = T x L x x C 60 x 1000 T2: Return temperature Customers machine L 0.8 x 3 x 1 x 103 x 4.2 x 103 = T =T2 T1 HEC 60 x 1000 H = 167W L Cooling capacity = Considering a safety factor of 20%, 167W x 1.2 = T1: Outlet temperature 200W Example 3 When cooling the object below a certain temperature in certain period of time.
Note 6) ( ) values insides denote the air passage for normally open type. 4-12-8 9 3 Port Solenoid Valve Series VQ100 Construction q e r t u w V100 SY SYJ VK y VZ i VT VP R A P VG o VP S070 VQ VKF VQZ (For N.C. valve) VZ Component Parts VS Description Material Resin Stainless steel Stainless steel, Resin Stainless steel NBR Carbon steel NBR No. q w e r t y u i Solenoid coil Body Fixed iron
(See q.) If current decreases at this point, the flow rate may not change by 135 mA due to hysteresis. (See w.) The flow rate at increasing current and decreasing current are not the same due to hysteresis. (q 85 l/min., e 93 l/min.) Condition 2. P1 = 0.7 MPa, P2 = 0.2 MPa Refer to curve B when P is 0.5 MPa.