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MapleSim Hydraulics Library from Modelon

Spool_3_2_PAT  Spool with 3 ports and 2 stable positions; when not activated, P and A are connected and T is closed

The Spool_3_2_PAT component describes the spool of a directional control valve with 3 ports and 2 stable positions. When in the not activated position, ports P and A are connected and port B is closed.

The laminar/turbulent flow through the valve is modeled as flow through orifices without cavitation. The opening of the valve is input at the port spoolposition (0spoolposition  1).

The parameter qnom gives the nominal flow rate of the fully opened flow path at the pressure drop dpnom.

Amax=qnom12ρk2Δpnom

dmax=2Amaxπ

For example, the maximum diameter for the flow path from P to B is given by dmaxPB:

AmaxPB=qnomPB12ρk2Δpnom

dmaxPB=2AmaxPBπ

There is leakage flow modeled when the respective flow path is nominally closed.

When the pump pressure and the flow rate are high, the unbalanced forces and flow forces acting on the spool are higher than the force generated by the solenoid and the valve is partially closed. This effect can be modeled by the parameters P_max and coeff_P. Specify the maximum hydraulic power in W (where the valve is still completely open) and use coeff_P to adjust the model to the manufacturer's data. When the specified hydraulic power is exceeded, a warning is printed in the log window (Mode Simulation / Simulation / Show Log).

Events

There is a new boolean reduceEvents (selected by default) in the Advanced section under the Properties tab ( ). Selecting reduceEvents lets the model use noEvents(expr) to generate fewer events for boolean expressions that should not generate events. In some cases the solver might reduce the stepsize too much and generate a lot of steps. If this happens, try clearing reduceEvents.

 

Variables

Connections

Parameters

Variables

Name

Value

Units

Description

Modelica ID

morPA

 

 

 

mor_P_A

morAT

 

 

 

mor_A_T

checkFlow

 

 

 

checkFlow

portpressure

 

 

 

port_pressure

portflow

 

 

 

port_flow

commanddiameter

 

 

 

command_diameter

pPabs

pP+oil.p_atm

Pa

Absolute pressure at port P

pP_abs

psat

[1]

Pa

Gas saturation pressure

p_sat

pAsummary

pA

Pa

Pressure at port A

summary_pA

pTsummary

pT

Pa

Pressure at port B

summary_pT

pPsummary

pP

Pa

Pressure at port P

summary_pP

ΔpPAsummary

pApP

Pa

Pressure drop

summary_dp_PA

ΔpPTsummary

pTpP

Pa

Pressure drop

summary_dp_PT

qPAsummary

mor_PA.q

m3s

Flow rate flowing port_P to port_A

summary_qPA

qATsummary

mor_AT.q

m3s

Flow rate flowing port_P to port_A

summary_qAT

[1] oil.gasSaturationPressureT=oil.T0+ΔTsystem,vgas=oil.vgas

Connections

Name

Description

Modelica ID

portA

Port A, one of valve connections to actuator or motor

port_A

portP

Port P, where oil enters the component from the pump

port_P

portT

Port T, where oil flows to the tank

port_T

spoolposition

Command signal for spool position

spool_position

oil

 

oil

Parameters

General Parameters

Name

Default

Units

Description

Modelica ID

ΔTsystem

0

K

Temperature offset from system temperature

dT_system

Advanced Parameters

Name

Default

Units

Description

Modelica ID

reduce events

true

 

If true, reduce event generation

reduceEvents

Flow Parameters

Name

Default

Units

Description

Modelica ID

use CheckFlow

true

 

True, if a warning should be printed to user

useCheckFlow

Δpnom

7.·105

Pa

Pressure drop at nominal flow rate qnom

dpnom

qnomPA

0.00158

m3s

Nominal flow rate from P -> A

qnom_P_A

qnomAT

qnomPA

m3s

Nominal flow rate from A -> T

qnom_A_T

Pmax

1.26·105

W

Max. hydraulic power

P_max

coeffP

10

 

Influence of hydraulic power on flow rate

coeff_P

k1

10

 

Laminar part of orifice model

k1

k2

2

 

Turbulent part of orifice model, k2=1Cd2

k2

Spool Geometry Parameters

Name

Default

Units

Description

Modelica ID

dleak

1.67·10-5

m

Diameter of equivalent orifice to model leakage of closed valve

dleak

See Also

DirectionalControl

MapleSim Hydraulics Library from Modelon Overview

 


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