Hydraulic Filters After washing the element, make sure the base seal is properly mounted. 500 A Vertical Suction Filter FHIA Series Dimensions Differential pressure indicator 16 B (34) F OUT Removal dimension K H F OUT D E C H Differential pressure indication switch FH FH 62 HOW (65) F IN 4 x I OUT A J G (mm) A B C D E F G H I J K Model Weight (kg) FHIA-04 FHIA-06 FHIA-08 FHIA-10 FHIA-12 FHIA-16 FHIA-20 FHIA
) 258-9200-www.stevenengineering.com Nil Rc G NPT NPTF Option F N T Option Part No.
V 2-wire 24 V 12 V No IC circuit 100 V or less Refer to pages 796 and 797 for the details on auto switches with a prewired connector.
Thread T F N Orifice size 2 3 4 5 6 Rc(PT) NPTF G(PF) NPT 3mm 4.5mm 6mm 8mm 10mm Refer to table q for configuration. Port size 01 02 03 04 1 8 1 4 Valve/Body 0 2 Normally closed (N.C.)/single unit Normally open (N.O)/single unit 3 8 1 2 Refer to table q for configuration.
Port size (P, A and B port) Rated voltage M5 M5 x 0.8 01 Rc 1 8 1 2 3 100 VAC, 50/60 Hz 200 VAC, 50/60 Hz 110 VAC, 50/60 Hz 220 VAC, 50/60 Hz R1, R2: M5 4 Option 5 6 24 VDC 12 VDC Nil None With bracket (Not assembled) 7 240 VAC, 50/60 Hz 9 Other Option F Option Part No. Description Part no.
F Thread type Rc G NPT NPTF Nil F N T Option Part No. Description Part no.
Port size (P, A and B port) Rated voltage M5 01 M5 x 0.8 1 2 3 4 5 6 7 100 VAC, 50/60 Hz 200 VAC, 50/60 Hz 110 VAC, 50/60 Hz 220 VAC, 50/60 Hz 1 8 R1, R2: M5 Option 24 VDC 12 VDC Nil None With bracket (Not assembled) 240 VAC, 50/60 Hz For other rated voltages, please consult with SMC. F Option Part No. Description Part no.
Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
.020 F-2815-201 Blue .025 F-2815-251 Brown .030 F-2815-301 Beige .040 F-2815-401 Rust
Calculation of applied lateral load The lateral load F equals the total load of the work piece. Thus, F = x m g (N) 1. Calculation of applied lateral load F The lateral load F equals the coefficient between the work piece and the conveyor. Thus, from the total amount of the work piece and coefficient of friction, F = x m g (N) 2.