Press.comp Flow Cont. valve 100l/m (2.5-6.5l/m) VRC 12-E-1.2

This is a partially adjustable, priority type, pressure compensated flow control valve, where the flow from port 3 will remain constant regardless of the pressure difference across the valve, while excess flow passes from port 1 to 2.

Flow enters at port 1 and passes across a fixed orifice in the spool, which creates a pressure drop. This causes the spool to move back against the spring, which then restricts the outlet flow. Port 1 then opens to port 2 to allow excess flow to pass. The regulated flow will always take priority and remains constant if the working pressure is higher in either port 2 or port 3.

Varenummer:
820219819

Pakke str.:
0 pcs

Min. bestillingsenhed er:
1 pcs
Housing NCS12/3-SES 3/4 Stål
Partnumber: 11029075
LINE BODY, NCS 12/3 SE 1/2 NCS12/3-SE 1/2
Partnumber: 922501712
LINE BODY, NCS 12/3 SE 3/4 NCS12/3--SE 3/4
Partnumber: 922501812
Housing NCS12/3--SI 1/2
Partnumber: 922501912
Housing NCS12/3--SI 3/4
Partnumber: 922502012
Housing NCS12/3-DL 3/4
Partnumber: 922502122
SEAL KIT NCS 12 3 VIE #
Partnumber: 230000130
Brand Name
Danfoss

Cavity
NCS12/3

Contamination level max.
20/18/14 - ISO 4406

Flow max. regulated
6.5 lpm

Flow min. regulated
2.5 lpm

Flow rate nominal LMin
73 lpm

Inlet flow max.
100 lpm

Model code
VRC12-E-1.25-00

Oil viscocity recommended
12 - 54 cSt

Pressure compensated
Yes

Pressure max.
315 bar

Temperature max.
+100 °C

Temperature min.
-40 °C

Torque tightening
65 - 70 Nm
Package size
0 pcs

Barcode
5704334468189

Gross weight
0,47 Kg

Net weight
0,47 Kg

Country of origin
ITA

Intrastat code
84812010

This is a partially adjustable, priority type, pressure compensated flow control valve, where the flow from port 3 will remain constant regardless of the pressure difference across the valve, while excess flow passes from port 1 to 2.

Flow enters at port 1 and passes across a fixed orifice in the spool, which creates a pressure drop. This causes the spool to move back against the spring, which then restricts the outlet flow. Port 1 then opens to port 2 to allow excess flow to pass. The regulated flow will always take priority and remains constant if the working pressure is higher in either port 2 or port 3.