EATON Danfoss PCS4-10 Series Flow Control Valves
We are closed from Monday, Dec 23rd and will reopen on Monday, Jan 6th. Any orders received during this time will be processed in the New Year.

EATON Danfoss PCS4-10 Series Flow Control Valves


Vickers Eaton Danfoss PCS4-10 Series flow control valves provide a priority pressure-compensated flow. These valves are ideal for controlling motors or cylinders to obtain a prioritised flow.

Filter
StyleModelPrice (ex. VAT)
A
02-113116
€80.56
A
02-112940
€80.56

Working Mechanism

  • These valves are used with either a fixed or variable orifice on port 4 to maintain a constant flow out of port 3, regardless of downstream pressure changes.
  • All flow over the priority requirement is bypassed from port 1 to port 2.
  • If the priority port is dead-headed, valves direct flow out of the priority port and shut off the bypass flow.

Features

  • Eaton PCS4-10 Series flow control valves have cartridge construction to promote mounting flexibility.
  • They have Buna-N seals to provide leakproof connections.
  • The allowable stem torque applicable in their valve cavity is 68 to 75 Nm.
  • These valves have aluminium housing that covers their steel body to resist corrosion and wear.

Compatible Accessories

  • Eaton 889653 Seal Kit: This kit consists of Viton seals to replace the existing worn-out seals.

Frequently Asked Questions

How much pressure can these valves withstand?

Eaton PCS4-10 Series flow control valves can withstand pressures up to 3000 psi.

What is the operating temperature range of these flow control valves?

-40 to 120 degrees C.

What are the applications of flow control valves?

These valves are commonly used in showers, faucets and lawn watering systems.

What is the maximum flow rate these valves can handle?

38 litre per minute.

How to protect these valves from contaminants?

Eaton valves can be equipped with filters complying with ISO cleanliness code 18/16/13 to avoid the ingress of contaminants.

We are here to help!

Looking for a part not listed here?