A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation

A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation

In part I of this study, we experimentally and numerically investigated the pilot stage of a novel two-stage servovalve architecture. The novelty of the proposed configuration is the torque motor being removed and replaced with two small two-way two-position (2/2) valves actuated by piezoelectric ri...

Full description

Bibliographic Details
Main Authors: Paolo Tamburrano, Andrew R. Plummer, Pietro De Palma, Elia Distaso, Riccardo Amirante
Format: Article
Language:English
Published: MDPI AG 2020-05-01
Series:Energies
Subjects:
servovalve
piezoelectric
ring bender
SimScape
Online Access:https://www.mdpi.com/1996-1073/13/9/2267
id doaj-edde471e521f4d31a5ef153389050923
record_format Article
spelling doaj-edde471e521f4d31a5ef1533890509232020-11-25T02:37:50ZengMDPI AGEnergies1996-10732020-05-01132267226710.3390/en13092267A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full SimulationPaolo Tamburrano0Andrew R. Plummer1Pietro De Palma2Elia Distaso3Riccardo Amirante4Department of Mechanics, Mathematics and Management (DMMM), Polytechnic University of Bari, 70125 Bari, ItalyCentre for Power Transmission and Motion Control (PTMC), University of Bath, Bath BA2 7AY, UK;Department of Mechanics, Mathematics and Management (DMMM), Polytechnic University of Bari, 70125 Bari, ItalyDepartment of Mechanics, Mathematics and Management (DMMM), Polytechnic University of Bari, 70125 Bari, ItalyDepartment of Mechanics, Mathematics and Management (DMMM), Polytechnic University of Bari, 70125 Bari, ItalyIn part I of this study, we experimentally and numerically investigated the pilot stage of a novel two-stage servovalve architecture. The novelty of the proposed configuration is the torque motor being removed and replaced with two small two-way two-position (2/2) valves actuated by piezoelectric ring benders, which can effectively control the opening degree of a main spool valve. With this novel architecture, the typical drawbacks of two-stage servovalves can be overcome, such as the high complexity of the torque motor and the high internal leakage in the pilot stage when the main valve is at rest in the neutral position (null). The low complexity and the negligible internal leakage of the piezo-valves are accompanied by the high response speed typical of piezoelectric actuators. The valve assessment is completed in the present study, since the entire valve architecture (main stage + pilot stage) is investigated. In particular, a simplified numerical model is developed to provide a design tool that allows, for a given main stage spool, the values of the geometrical parameters of the pilot stage to be chosen along with the characteristics of the ring bender. This design procedure is applied to a 7 mm diameter main spool; afterward, a detailed numerical model of the entire valve, solved by SimScape Fluids software, is employed to demonstrate that the response of the main stage valve is very rapid while ensuring negligible internal leakage through the piezo-valves when the main stage is closed (resulting in lower power consumption). For this reason, the proposed valve can be regarded as a “clean” component for energy conversion, having lower energy consumption than commercially available servovalves.https://www.mdpi.com/1996-1073/13/9/2267servovalvepiezoelectricring benderSimScape
collection DOAJ
language English
format Article
sources DOAJ
author Paolo Tamburrano
Andrew R. Plummer
Pietro De Palma
Elia Distaso
Riccardo Amirante
spellingShingle Paolo Tamburrano
Andrew R. Plummer
Pietro De Palma
Elia Distaso
Riccardo Amirante
A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation
Energies
servovalve
piezoelectric
ring bender
SimScape
author_facet Paolo Tamburrano
Andrew R. Plummer
Pietro De Palma
Elia Distaso
Riccardo Amirante
author_sort Paolo Tamburrano
title A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation
title_short A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation
title_full A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation
title_fullStr A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation
title_full_unstemmed A Novel Servovalve Pilot Stage Actuated by a Piezo-electric Ring Bender (Part II): Design Model and Full Simulation
title_sort novel servovalve pilot stage actuated by a piezo-electric ring bender (part ii): design model and full simulation
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2020-05-01
description In part I of this study, we experimentally and numerically investigated the pilot stage of a novel two-stage servovalve architecture. The novelty of the proposed configuration is the torque motor being removed and replaced with two small two-way two-position (2/2) valves actuated by piezoelectric ring benders, which can effectively control the opening degree of a main spool valve. With this novel architecture, the typical drawbacks of two-stage servovalves can be overcome, such as the high complexity of the torque motor and the high internal leakage in the pilot stage when the main valve is at rest in the neutral position (null). The low complexity and the negligible internal leakage of the piezo-valves are accompanied by the high response speed typical of piezoelectric actuators. The valve assessment is completed in the present study, since the entire valve architecture (main stage + pilot stage) is investigated. In particular, a simplified numerical model is developed to provide a design tool that allows, for a given main stage spool, the values of the geometrical parameters of the pilot stage to be chosen along with the characteristics of the ring bender. This design procedure is applied to a 7 mm diameter main spool; afterward, a detailed numerical model of the entire valve, solved by SimScape Fluids software, is employed to demonstrate that the response of the main stage valve is very rapid while ensuring negligible internal leakage through the piezo-valves when the main stage is closed (resulting in lower power consumption). For this reason, the proposed valve can be regarded as a “clean” component for energy conversion, having lower energy consumption than commercially available servovalves.
topic servovalve
piezoelectric
ring bender
SimScape
url https://www.mdpi.com/1996-1073/13/9/2267
work_keys_str_mv AT paolotamburrano anovelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT andrewrplummer anovelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT pietrodepalma anovelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT eliadistaso anovelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT riccardoamirante anovelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT paolotamburrano novelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT andrewrplummer novelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT pietrodepalma novelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT eliadistaso novelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
AT riccardoamirante novelservovalvepilotstageactuatedbyapiezoelectricringbenderpartiidesignmodelandfullsimulation
_version_ 1724793064132706304

Similar Items