A Micro Motor Using Electroconjugate Fluids (ECFs) : Proposition of Stator Electrode Type (SE-type) Micro ECF Motors
スポンサーリンク
概要
- 論文の詳細を見る
Some dielectric fluids such as dibutyl decanedioate generate jet flow between a pair of electrodes. One of authors discovered electroconjugate fluid (ECF hereafter), which is considered to be a kind of functional fluid. In this study, a micro motor that utilizes ECF is proposed. In the proposed motor, are pairs of electrodes located inside a cylindrical tube (stator) filled with ECF. In the stator, rotational flow is induced by ECF jets. By extracting the rotational flow power with a rotor, micro motors are easily realized. In this paper, the fabrication of micro ECF motors having an I. D. of φ3mm, φ4mm or φ8mm is described. Basic characteristics such as rotational velocity, load characteristics, output power and efficiency are experimentally examined. Also, mathematical models of the ECF motors are proposed and verified with experimental data. Finally, miniaturization characteristics are examined using the fabricated ECF motors.
- 一般社団法人日本機械学会の論文
- 2001-09-15
著者
-
YOKOTA Shinichi
Precision and Intelligence Laboratory, Tokyo Institute of Technology
-
Edamura Kazuya
New Technology Management Co. Ltd.
-
Yokota Shinichi
Precision & Intelligence Lab. Tokyo Institute Of Technology
-
Otsubo Yasufumi
Department Of Urban Environment System Chiba University
-
KONDOH Yutaka
Precision and Intelligence Laboratory, Tokyo Institute of Technology
-
SADAMOTO Atsushi
Graduate School, Tokyo Institute of Technology, Japan
-
OTSUBO Yasufumi
Engineering Faculty, Chiba University
-
Kondoh Yutaka
Precision And Intelligence Laboratory Tokyo Institute Of Technology
-
Sadamoto Atsushi
Graduate School Tokyo Institute Of Technology Japan
-
Edamura Kazuya
New Technology Management Co. Ltd
関連論文
- ポリエチレングルコール分散系のエレクトロレオロジー
- Effect of Surfactant on the Bridging Conformation of Associating Polymer and Suspension Rheology
- A Piezoelectric Micropump Using Resonance Drive with High Power Density
- Improvement of Preparation Method of UV-protecting Suspensions by the Use of Rheological Techniques
- Application of Discrete Event Control to the Insertion Task of Electric Line Using 6-Link Electro-Hydraulic Manipulators with Dual Arm
- Flexible Hydraulic Actuator for Space Manipulators
- An Approach to Extending the Potential of the Remote Measurement Method for Unsteady Flow Rate Using Hydraulic Pipeline Dynamics : Interpolation Method and Extrapolation Method
- A Fast-Acting Electro-Hydraulic Digital Transducer : A Poppet-Type On-Off Valve using a Multilayered Piezoelectric Device
- An Unsteady Flow Rate Measurement Method Utilizing Dynamic Characteristics between Pressure and Flow Rate along a Pipeline : A Method Using Pressures at Two Separated Points
- Rheology and Firing Properties of Phosphor Pastes for CRT Displays
- Study on an Active Accumulator : Active Control of High-Frequency Pulsation of Flow Rate in Hydraulic Systems
- Electro-Conjugate Fluid Jet-Driven Micro Artificial Antagonistic Muscle Actuators and their Integration
- A Fluid Control Valve Based on the Viscosity Increase Effects of Dielectric Fluids Caused by Electrodes Planted with Hair-Like Short Fibers : Proposition of a Fiber Planted ER Valve
- A Micro Motor Using Electroconjugate Fluids (ECFs) : Proposition of Stator Electrode Type (SE-type) Micro ECF Motors
- Rheological Behavior during Phase Separation Induced by UV Curing
- Rheology Control of Colloidal Suspensions and New Fluid Devices Using Electrosensitive Liquids
- An In-Pipe Mobile Micromachine Using Fluid Power : A Mechanism Adaptable to Pipe Diameters
- Effect to Surfactant on the Bridging Conformation of Associating Polymer and Suspension Rheology
- Rheology Control of Colloidal Suspensions and New Fluid Devices Using Electrosensitive Liquids
- Rheology and Firing Properties of Phosphor Pastes for CRT Displays
- ポリエチレングルコール分散系のエレクトロレオロジー
- Active Flow Channel Matrix using Electro-conjugate Fluid for μTAS Application