• Title/Summary/Keyword: Pneumatic Pressure

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Analysis of a Low Friction Piston Seal in Pneumatic Cylinders (공기압 실린더용 저마찰 피스톤 실의 특성해석)

  • Kim, D.T.;Zhang, Z.J.
    • Transactions of The Korea Fluid Power Systems Society
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    • v.8 no.3
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    • pp.21-26
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    • 2011
  • Nonlinear seal friction in pneumatic cylinders can impede the performance of pneumatic systems designed for high precision positioning with favorable high speed actuation. The behaviour of an elastomeric piston seals in high speed pneumatic cylinders is analyzed by nonlinear finite element analysis using ABAQUS. The contact pressures, stress and strain distributions and frictional forces of the squeeze type piston seal are simulated with variation of the seal radial installed interference, the operating pressures, friction coefficients and piston rod velocities. The nonlinear finite element model of the squeeze type piston seal is used to predict deformation of a seal, friction force and contact pressure distributions.

A Study on the Measurement Method of Leakage for Pneumatic Cylinder (공기압실린더의 누설유량 계측에 관한 연구)

  • Jang, J.S.;Ji, S.W.
    • Journal of Power System Engineering
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    • v.11 no.4
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    • pp.98-102
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    • 2007
  • In this study, a measurement method of leakage flow-rate for pneumatic driving apparatus is proposed. The existing measurement methods of leakage flow-rate of air need disassemble the test component. Therefore, there is no effective method to measure the leakage flow-rate while operating pneumatic driving apparatus. In this study, the leakage flow-rate is measured from the pressure change in an isothermal chamber that can realize isothermal conditions by stuffing the steel wool into it. Therefore, a wide range of flow-rate could be measured only from the pressure response and the leakage flow-rate can be measured during operating pneumatic driving apparatus. The effectiveness of the proposed method is proved by experimental results.

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A Study on the Measurement Method of Leakage Flow-rate for Pneumatic Cylinder (공압실린더의 누설유량 계측방법에 관한 연구)

  • Jang J.S.;Ji S.W.;Jeong J.H.;Kang B.S.
    • Transactions of The Korea Fluid Power Systems Society
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    • v.3 no.1
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    • pp.15-19
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    • 2006
  • In this study, a measurement method of leakage flow-rate for pneumatic driving apparatus is proposed. The existing measurement methods of leakage flow-rate of air need disassemble the test component. Therefore, there is no effective method to measure the leakage flow-rate while operating pneumatic driving apparatus. In this study, the leakage flow-rate is measure from the pressure change in an isothermal chamber that can realize isothermal conditions by stuffing steel wool into it. Therefore, wide range of flow-rate could be measured only from the pressure response and the leakage flow-rate can be measured during operating pneumatic driving apparatus. The effectiveness of the proposed method is proved by experimental results.

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Analysis of Piston Seal in High-Speed Pneumatic Cylinders (고속 공기압 실린더의 피스톤 실 특성 해석)

  • Zhang, Z.J.;Kim, D.T.;Han, S.S.
    • 유공압시스템학회:학술대회논문집
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    • 2010.06a
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    • pp.99-104
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    • 2010
  • Nonlinear seal friction in pneumatic cylinders can impede the performance of pneumatic systems designed for high precision positioning with favorable high speed actuation. The behaviour of an elastomeric piston seal in high speed pneumatic cylinders is analysed by nonlinear finite element analysis using ABAQUS. The contact pressures, stress and strain distributions and frictional forces of the piston seal are simulated with variation of interference fits, supply pressures, friction coefficients and piston rod velocities. The nonlinear finite element model of the piston seal is used to predict deformation of a seal, friction force and contact pressure distributions.

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Contact Pressure of Non-Pneumatic Tires with Auxetic spokes (Auxetic Spoke로 설계된 비공기압 타이어의 접지압)

  • Kim, Kwang-Won;Kim, Doo-Man
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.39 no.8
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    • pp.719-724
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    • 2011
  • A Non_Pneumatic tire (NPT) has spoke to replace air of the pneumatic tires. A NPT appears to have advantages over the conventional pneumatic tire in terms of flat proof and maintenance free. And a NPT can also be used in the space environment since it uses no air for inflation. In this study, the static contact pressure of NPTs with auxetic honeycomb spokes is investigated as a function of vertical loading and is compared with that of a pneumatic tire. The finite element based numerical simulation of the local stress of an airless tire is carried out with ABAQUS for varying vertical force and honeycomb spokes geometries.

Pressure Control of a Piezoactuator-Driven Pneumatic Valve System (압전 작동기로 구동 되는 공압 밸브의 압력제어)

  • Jo, Myeong-Su;Yu, Jung-Gyu;Choe, Seung-Bok
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.26 no.2
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    • pp.399-405
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    • 2002
  • This paper proposes a new type of piezoactuator-driven valve system. The piezoceramic actuator bonded to both sides of a flexible beam surface makes a movement required to control the pressure at the flapper-nozzle of a pneumatic valve system. After establishing a dynamic model, an appropriate size of the valve system is designed and manufactured. Subsequently, a robust H$_{\infty}$ control algorithm is formulated in order to achieve accurate tracking control of the desired pressure. The controller is experimentally realized and control performance for the sinusoidal pressure trajectory is presented in time domain. The control bandwidth of the valve system, which directly represents the fastness, is also evaluated in the frequency domain.

[ $H_{\infty}$ ] Pressure Control of Pneumatic Valve Driven by Piezoactuators (압전 작동기로 구동 되는 공압 밸브의 $H_{\infty}$ 압력제어)

  • Yoo, J.K.;Cho, M.S.;Choi, S.B.
    • Proceedings of the KSME Conference
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    • 2001.11a
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    • pp.673-678
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    • 2001
  • This paper proposes a new type of piezoactuator-driven valve system. The piezoceramic actuator bonded to both sides of a flexible beam surface makes a movement required to control the pressure at the flapper-nozzle of a pneumatic valve system. After establishing a dynamic model, an appropriate size of the valve system is designed and manufactured. Subsequently, a robust $H_{\infty}$ control algorithm is formulated in order to achieve accurate tracking control of the desired pressure. The controller is experimentally realized and control performance for the sinusoidal pressure trajectory is presented in time domain. The control bandwidth of the valve system, which directly represents the fastness, is also evaluated in the frequency domain.

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Pressure Control of a Piezoactuator-Driven Pneumatic Valve System (압전 작동기로 구동되는 공압 밸브의 압력제어)

  • Cho, M.S.;Yoo, J.K.;Choi, S.B.
    • Proceedings of the KSME Conference
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    • 2000.11a
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    • pp.554-558
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    • 2000
  • This paper proposes a new type of piezoactuator-driven valve system. The piezoceramic actuator bonded to both sides of a flexible beam surface makes a movement required to control the pressure at the flapper-nozzle of a pneumatic system. After establishing a dynamic model, an appropriate size of the valve system is designed and manufactured. Subsequently, a sliding mode controller which is known to be robust to uncertainties such as disturbance is formulated in order to achieve accurate regulating and tracking control of the desired pressure. The controller is experimentally realized and control performances for various pressure trajectories are presented in time domain. The control bandwidth of the valve system which directly represents the fastness is also evaluated in the frequency domain.

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Pressure Regulator for Piezoelectric Valve (압전 밸브용 압력 레귤레이터)

  • Yun, S.N.;Kim, C.Y.;Seo, S.W.;Park, J.H.;Ham, Y.B.
    • Transactions of The Korea Fluid Power Systems Society
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    • v.3 no.2
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    • pp.1-6
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    • 2006
  • The pressure regulator which is used for controlling the reducing pressure in the piezoelectrically driven pneumatic valve has been studied. The pneumatic valve of this study object is 2-stage type and consists of a piezoelectric actuator, a controller, a poppet valve and a pressure regulator. Nominal flow of 50 lpm, maximum operating pressure of 0.9MPa and frequency characteristic of 10Hz and over are required in this pneumatic valve, but the pressure regulator is needed because piezoelectric actuator has no ability to control the pressure of 0.9MPa directly. In this study, bimorph type PZT actuator of $25.2mm(L){\times}7.2mm(W){\times}0.5mm(H)$ with constant of $-220{\times}10-12$ CN-1 was proposed and investigated. Maximum operating force of 0.052 N and maximum displacement of $63{\mu}m$ were gotten from the fabricated PZT actuator. From the analysis results, the orifice diameter of 0.6mm for a piezoelectric actuator was derived and then the pressure regulator which can be operated under 0.15 MPa easily was designed and manufactured. Performance and effects of design parameters were simulated by the Simulink of Matlab software, and it was confirmed that the performance characteristics of manufactured pressure regulator are superior in the common use pressure range of 0.5 MPa to 0.7 MPa. The results show that the proposed pressure regulator is suitable for the pneumatic valve with a PZT actuator.

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Comparison of Cushion Performance on Parameter Changes in High Speed Pneumatic Cylinder Driving System (공기압 실린더 고속 구동시스템에서 파라미터 변화에 따른 쿠션성능 비교)

  • Kim, Do Tae;Jang, Zhong Jie
    • Journal of Drive and Control
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    • v.12 no.4
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    • pp.54-59
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    • 2015
  • Due to the tendency to use high speed pneumatic cylinders to improve productivity, cushioning devices are adopted to decelerate the piston motion of pneumatic cylinders to reduce noise, vibration, and impact. This paper presents a comparison of the cushion characteristics of a high speed pneumatic cylinder with a relief valve type cushioning device. The system parameters selected are the damping coefficient, Coulomb friction, heat transfer coefficient, and cracking pressure of the relief valve in the air cushioning device. The integral of the time multiplied square error (ITSE) is used to quantitative measure the cushioning performance to assess the effect of varying these. The cushioning performance achieved good results when the ITSE is a minimum value. In a comparison of the piston displacement and velocity with the variations in system parameters, the heat transfer coefficients are not as significantly affected as the other. Also, the cracking pressure of the relief valve is mainly affected by the pressure and temperature in the cushion chamber.