3 Port Solenoid Valve Metal Seal/Rubber Seal, Base Mounted Series VQZ100/200/300 21 VKF (A) 2 (A) 2 VQZ 1 (P) 3 (R) 1 (P) 3 (R) VZ VS VFN r e w q r e w q N.O. N.O. (A) 2 (A) 2 1 (P) 3 (R) 1 (P) 3 (R) Component Parts Description Material Note No.
r e w q r e w q VG VP S070 VQ VKF N.C.
Lube/ALD600-06 to 10, ALD900-12 to 20 Float switch mounting position (Connection port center) AL800 AL900 ALF ALT ALD ALD ALB (Connection port center) LMU F (Bracket mounting dimensions) ALIP AEP HEP Bracket (Option) Bracket dimensions A B C D E Model Port size F 344 416.5 G 32.5 0 H 95 120 J 14 14 K 55.5 48 ALD600-06 to 10 ALD900-12 to 20 , 1 4 3 175 250 175 250 87.5 125 487 639 135 210
Vertical line of belt teeth Flaw which is made when the belt runs on the flange. e. Rubber back of the belt is softened and sticky. f. Crack on the back of the belt 4. Troubleshooting Alarms below are abstract of representative examples.
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
7 q e @0 !0 o @2 @3 !5 u t !8 @1 r @4 w 12 to 40 @7 !1 !7 q !6 !0 @2 @3 o @4 @6 y e r !8 @1 @5 u w Rod cross section for 12, 16, 20, and 25 Rod cross section for 32 and 40 With end lock 12 to 40 y !7 !6 q !0 o @2 @3 @4 @6 e r !8 @5 @1 i @8 !4 !5 !2 @9 !3 w Parts list No. 1 2 3 4 5 No. Description Rod cover Head cover Cylinder tube Piston Spacer for switch type Description Qty.
(For details, refer to catalog on page 22.) 17 Series SYJ500 Construction c f a e b d c f a e b d N.C. N.O.
B C Nil None With SUP blocking plate With EXH blocking plate With SUP and EXH blocking plates Port plug A Port plug B 1 2 3 Note) P R PR A B Cylinder port size 4 Note) 5 Note) E Note) The 3 position type uses two stations.
size (mm) Maximum operating tensile and compressive force (N) Allowable eccentricity (Umm) Rotating angle Basic type Standard/Thread nominal size JC20-8-125 JC30-10-125 JC40-14-150 JC63-18-150 0.5 0.5 0.75 1 300 800 1250 3100 M8 x 1.25 M10 x 1.25 M14 x 1.5 M18 x 1.5 20 25/32 40 50/63 5 Semi-standard/Thread nominal size JC20-8-100 JC25-10-150 JC32-10-100 JC40-12-125 JC40-12-150 JC40-12-175
THREE-PORT VALVES FIVE-PORT VALVES D I R E C T A C T I N G VT S E R I E S (S E E V A LV E S E C T I O N) V A C U U M V E R S I O N SY B O D Y P A R T E D (S E E V A LV E S E C T I O N) H O W T O O R D E R VT S E R I E S H O W T O O R D E R SY S E R I E S VT3 V Refer to series VT307/327 P O R T W AY SY 20 X20 S I Z E 07 17 25 S I Z E E N T E R A S S TA N D A R D P A R T F O R E X T E R N
EZ VFS1320-E/EZ VFS1420-E/EZ VFS1520-E/EZ Lead wire O.D.
Stainless steel With switch only 9 Magnet plate 10 Scraper 11 Rod seal NBR 12 Piston seal 13 Tube gasket 14 Piston gasket 6 Series CHKDB Dimensions 2-Rc P F with effective thread depth G F with effective thread depth G Q Q R D R H E E 4-K through 8-L counter bore 4-K through C B + Stroke J J 8-L counter bore A + Stroke M M CHKDB20 & 25 CHKDB32 to 100 Width across flats f c a b g e h + Stroke
EZ VFS1320-E/EZ VFS1420-E/EZ VFS1520-E/EZ Lead wire O.D.
Pressure sensor assembly: 3 m (With lead wire) Note Centralized wiring specification (Plug-in) Individual wiring specification: 300 mm (Connector assembly)4 Symbol C V None V Cannot be selected when e is N C1 V None None Cannot be selected when e is P or T L None V V Cannot be selected when e is N L1 None None V L2 None V None Cannot be selected when e is P or T L3 None None None 4 For the
E2l6lcr ava alr e a!1. svrlclrs Nole)Nol r.tat n! avaiab e 20mm lo 6.lmm cn y i 6-,,cylinder stroke (mm) Nole) Sriqe act n!
With air cushion 4-FD E-0.05 0 FT F FX0.15 B (mm) Bore size 40 B 61 E 25 F 2 FX 46 FD 6.6 FT 8 50 63 76 92 30 32 2 2 58 70 9 11 9 9 Note) End boss is machined on the flange for E.
L1 L2+A5 L3 2 1 W V 2 E= ( ) 2 9.8 1000 Collision speed V=1.4 Va *) Corrected coeficient 1 10 420 E= ( ) =0.09 2 9.8 1000 V=1.4 x 300=420 Calculate kinetic energy E(J) of moment. Calculate allwable kinetic energy Ea(J). Check that kinetic energy of moment does not exceed allowable kinetic energy.