MECHANICAL PRESSURE CONTROLS
4484 Boeing Drive Rockford, IL 61109 • USA • Phone +1 (815) 397-6628 • Fax +1 (815) 397-2526
mail: delta@delta-power.com • www.delta-power.com
WARNING: the specications/application data shown in our catalogs and data sheets are intended only as a general guide for the product described (herein). Any specic application should not be undertaken
without independent study, evaluation, and testing for suitability.
W 51 / 12-2022
DE-RVC CROSSOVER RELIEF VALVE, FOR SERIES CIRCUITS
DESCRIPTION
10 size, 7/8-14 thread, “Delta” series, crossover relief valve for series circuit application.
OPERATION
The DE-RVC is a direct-acting, cross over relief valve. When pressure at either port exceeds the nominal setting
value, ow will be diverted to the opposite port. Back pressure at either port will affect the nominal setting of the
opposite port on a 1:1 basis. For correlation purposes, pre-set value will be measured at port (2). Pressure at port
(1) will not vary more than ±300 PSI from the port (2) value. The cartridge offers smooth transition in response to
load changes in common hydraulic circuits.
FEATURES
• Hardened parts for long life.
• Industry common cavity.
VALVE SPECIFICATIONS
Nominal Flow 15 GPM (57 LPM) from (2) to (1)
20 GPM (76 LPM) from (1) to (2)
Rated Operating Pressure 4000 PSI (276 bar)
Viscosity Range 36 to 3000 SSU (3 to 647 cSt)
Filtration ISO 18/16/13
Media Operating Temp. Range -40° to 250°F (-40° to 120°C)
Weight .80 lbs (.36 kg)
Operating Fluid Media General Purpose Hydraulic Fluid
Cartridge Torque Requirements 30 ft-lbs (40.6 Nm)
Cavity DELTA 2W
Cavity Form Tool (Finishing) 40500000
Seal Kit 21191202
0
500
1000
1500
2000
2500
3000
3500
4000
4500
0 2 4 6 8 10 12 14 16
Flow (GPM)
0
50
100
Pressure Drop (PSI)
150
200
250
0
300
5 10 15 2520
30 35 40 45 50 55 60
Flow (LPM)
Pressure Drop (bar)
Port 1 to 2 Port 1 to 2 Port 1 to 2
HYDRAULIC SYMBOL
PERFORMANCE
Actual Test Data (Cartridge Only)
The DE-RVC is designed for series circuit
applications with controlled leakage between ports
(2) and (1). For parallel circuits, use DE-RVB.