Type |
N/A Screw-In Cartridge Solenoid Operated Valve |
Model Code Description |
N/A WK10E-01-C-N-0 WITHOUT COIL QS |
Style |
N/A Spool Type |
Flow Direction |
N/A 4-Way, 3 Position |
Action Type |
N/A Direct Acting |
Operating Pressure |
N/A 350 bar5000 psi |
Internal Leakage |
N/A 11.6 cu in/min. at 3000 psi and 158 SUS (190 cc/min at 250 bar and 34 cSt) |
Minimum Fluid Operating Temperature |
N/A -4 ºF-20 ºC |
Maximum Fluid Operating Temperature |
N/A 248 ºF120 ºC |
Ambient Temperature [Min] |
N/A -4 ºF-20 ºC |
Ambient Temperature [Max] |
N/A 140 ºF60 ºC |
Continuous Coil Duty Rating of Nominal Voltage |
N/A 85 to 115 % |
Current Draw at 12 Direct Current (DC) Voltage and 68 ºF (20 ºC) |
N/A 1.5 A |
Current Draw at 24 Direct Current (DC) Voltage and 68 ºF (20 ºC) |
N/A 0.8 A |
Pull-In Current [Min] of Nominal at 5000 psi (350 bar) |
N/A 90 % |
Fluid Compatibility |
N/A Mineral-Based or Synthetics with Lubricating Properties |
Viscosity |
N/A 7.4 to 420 cSt50 to 2000 SUS |
Filtration |
N/A 21/19/16 or Cleaner (per ISO 4406) |
Installation |
N/A No Orientation Restrictions |
Cavity |
N/A FC10-4 |
Cavity Tools (Rougher) |
N/A 02580248 |
Cavity Tools (Finisher) |
N/A 02580249 |
Cartridge Weight |
N/A 0.64 lb0.29 kg |
Coil Weight |
N/A 2 x 0.42 lb2 x 0.19 kg |
Cartridge Material |
N/A Steel |
Work Surface |
N/A Hardened |
Exposed Surface |
N/A Zinc Plated |
O-Ring Material |
N/A Buna-N or Viton® |
Back-Up Ring Material |
N/A PTFE |
Coil Material |
N/A Class N |
Wire |
N/A High Temperature Magnet |
Shell |
N/A Steel |
Encapsulation |
N/A Polyamide |
Seals |
N/A Buna-N |
Seal Kit |
N/A FS104-N - P/N: 03051912 |
Override Option |
N/A No Manual Override |
Ports |
N/A Cartridge Only |
Coil Voltage Type |
N/A Without Coil |
Nominal Flow at 3000 psi |
N/A 6 gpm |
Nominal Flow at 210 bar |
N/A 23 L/min |
BUn |
N/A EA |
Division |
N/A HYDRAULIC DIVISION |
Product Group Family |
N/A SOLENOID CARTRIDGE VALVES-SPOOL STYLE |
Product |
N/A SOLENOID VALVES |
N/A When de-energized the WK06J allows flow from cylinder ports 2 and 4 to port 1, port 3 is blocked. When coil S1 is energized the spool shifts and allows flow from port 2 to port 1 and from port 3 to port 4. When coil S2 is energized the spool shifts and allows flow from port 4 to port 1 and from port 3 to port 2. |