Pneumatic Actuators
SPS-K – SPD-K series

Compact Quarter-Turn
PNEUMATIC ACTUATORS
CONSTRUCTION | SCOTCH YOKE |
ACTION | SPRING RETURN | DOUBLE ACTING |
MATERIAL | CARBON STEEL | STAINLESS STEEL |
VALVE APPLICATION |
ON-OFF | MODULATING |
DESIGN | ISO 12490 | API 6DX | EN15714 | ASME VIII |
TORQUE | Up TO Nm 1.000 |
TEMPERATURE RANGE |
°C -29°/+100° (F°-20/+212°) °C -60° (F°-76°) on request |
DESIGN PRESSURE |
Barg 12 |
IP PROTECTION | IP66 | IP67M |
ATEX | YES |
EAC CU TR | YES |
PED | YES |
SIL CAPABILITIES |
3 |
NO CAST IRON OR ALUMINUM COMPONENTS. PROCONTROL Compact Actuators Series has been designed to achieve the lowest overall dimension and weight with many significant cost and performance benefits.
SPS – SPD series

Quarter-Turn
PNEUMATIC ACTUATORS
CONSTRUCTION | SCOTCH YOKE HEAVY DUTY |
ACTION | SPRING RETURN | DOUBLE ACTING |
MATERIAL | CARBON STEEL | STAINLESS STEEL |
VALVE APPLICATION |
ON-OFF | MODULATING | HIPPS |
DESIGN | ISO 12490 | API 6DX | EN15714 | ASME VIII |
TORQUE | Nm 2.000.000 |
TEMPERATURE RANGE |
°C -29°/+100° (F°-20/+212°) °C -60° (F°-76°) on request |
DESIGN PRESSURE |
Barg 12 |
IP PROTECTION | IP66 IP67M |
ATEX | YES |
EAC CU TR | YES |
PED | YES |
SIL CAPABILITIES |
3 |
CONSTANT PRESSURES & HIGH CYCLE CONTINUOUS USE. Regardless of how excessive the use of the application is, PROCONTROL Quarter-Turn Pneumatic Actuator Sps-SPD series can sustain constant pressures and are the perfect choice for high cycle continuos use.
LPS – LPD series

Linear
PNEUMATIC ACTUATORS
CONSTRUCTION | LINEAR |
ACTION | SPRING RETURN | DOUBLE ACTING |
MATERIAL | CARBON STEEL | STAINLESS STEEL |
VALVE APPLICATION |
ON-OFF | MODULATING | HIPPS |
DESIGN | ISO 12490 | API 6DX | EN15714 | ASME VIII |
TORQUE | N 3.000.000 |
TEMPERATURE RANGE |
°C -29°/+100° (F°-20/+212°) °C -60° (F°-76°) on request |
DESIGN PRESSURE |
Barg 12 |
IP PROTECTION | IP66 | IP67M |
ATEX | YES |
EAC CU TR | YES |
PED | YES |
SIL CAPABILITIES |
3 |
OPTIMAL MAXIMUM PRESSURE RATINGS. PROCONTROL Linear Pneumatic Actuators Lps-LPD series have optimal maximum pressure ratings which allow for a high range of output forces.