Back to Top

1
Hi, Guest!

ASCO GENERAL SERVICE SOLENOID VALVE (8320G001 120/60AC)

Update Terakhir
:
02 / 02 / 2022
Min. Pembelian
:
1 Unit

Harga

CALL
PERALATAN INSTRUMENT, ELECTRICAL, MECHANICAL, TOOLING, MEASUREMENT
( PERALATAN UKUR) SOLDERING & DESOLDERING

LARISSA TECHNOLOGY
Jl. Raya Alternatif Cibubur Km. 4, Cibubur 17435
Phone : 021 - 22813460 ; Fax : 021 - 84598635
No. WA : 0878 7304 1438 ; 0856 9498 2722
Email : [email protected]

www.larissatechnology.com

Detail ASCO GENERAL SERVICE SOLENOID VALVE (8320G001 120/60AC)

ASCO GENERAL SERVICE SOLENOID VALVE (8320G001 120/60AC)
PART NUMBER : 8320G001 120/60AC
Product Specifications :
- AC/DC : AC
- Inlet Pipe Size (NPT) : 1/8 in
- Orifice Size : 1/16 in
- Lead Length : 18.00 in - 45.72 cm
- Coil Class : F
- Body Material : Brass
- Cv/Kv (Exhaust Port) : 0.09 Cv - 0.08 Kv
- Cv/Kv (Pressure Port) : 0.09 Cv - 0.08 Kv
- Max Ambient Temperature : 125 F - 52 C
- Max Fluid Temperature : 180 F - 82 C
- Min Ambient Temperature : 32 F - 0 C
- Min Fluid Temperature : 32 F - 0 C
- Watt Rating 60 Hz : 9.10 W
- Max Operating Pressure (Air) : 100 PSI - 6.9 Bar
- Max Operating Pressure (Water) : 100 PSI - 6.9 Bar
- Max Operating Pressure (Lt Oil) : 100 PSI - 6.9 Bar
Description :
The ASCO 8320 series valves are small 3-way solenoid valves with all three connections
located in the body. Valve bodies are made of brass or stainless steel.
Standard valves have a Type 1, General Purpose Solenoid Encloosure. Valves may also
be provided with an explosion-proof solenoid enclosure designed to meet Enclosure
Type 3-Raintight, Type 7 (C & D) Explosion-Proof Class I, Groups C & D and Type 9
(E, F, & G) Dust Ignition-Proof Class II, Groups E, F, & G, and have a temperature range
code of TC3.
Special Features :
- All NPT connections are in the valve body to allow in-line piping
- No Minimum Operating Pressure Differential required
- Broadest range of applications
- Mountable in any position
# Solenoid Valve
# ASCO
# 8320
# Small 3-way
# General Service
Tampilkan Lebih Banyak
Kontak Kami