Development of a Microvibration Testing Device : Realizing Microvibrational Reference Waves Smaller than Floor Vibrations
スポンサーリンク
概要
- 論文の詳細を見る
To protect precision equipment from microvibrations, it is important to be able to measure the microvibration sensitivities of these machines. As yet, however, no measuring method has been developed. Conventional vibration testing devices cannot generate microvibrational waves under 10 Gal. The authors have developed a microvibration testing device that employs active control technologies. The trial device,which comprises pneumatic-type actuators and a new DSP (Digital Signal Processor) controller, successfully generates sinusoidal microvibrational waves at a magnitude of 0.1 Gal on a vibrating floor. These waves were realized with a noise rate of less than 10%. This paper outlines the developed system and describes some of the experimental results.
- 一般社団法人日本機械学会の論文
- 1996-06-15
著者
-
Yasuda M
Tokkyokiki Corp. Hyogo Jpn
-
Fujita Takafumi
Institute Of Industrial Science University Of Tokyo
-
Yasuda Masashi
TOKKYOKIKI Co.
-
TAGAWA Yasutaka
Tokyo University of Agriculture and Technology
関連論文
- Development of active mass damper to isolate vibration from rotating machine
- Development of a Microvibration Testing Device : Realizing Microvibrational Reference Waves Smaller than Floor Vibrations
- Research, Development and Implementation of Rubber Bearings for Seismic Isolation
- Experimental Study of Laminated Rubber Bearings for Earthquake Isolation of Buildings : 2nd Report, Static Tests for Rubber Bearings of 980 kN Rated Load
- Experimental Study of Laminated Rubber Bearings for Earthquake Isolation of Buildings : 1st Report, Static Tests for Rubber Bearings of 490 kN Rated Load
- Periodic Vibration and Impact Characteristics of a Nonlinear System with Collision
- Nonstationary Random Vibration of a Nonlinear System with Collision
- Stationary Random Vibration of a Nonlinear System with Collision
- Seismic Isolation of Industrial Facilities Using Lead-Rubber Bearing
- Development of Antiresonance Enforced Active Vibration Absorber System
- Automatic Generation and Automatic Analysis of Equations of Motion from the Graphic Input of a Vibration Model
- Active Vibration Control of Buildings with Smart Structures
- Automatic Generation of Equations of Motion from Graphic Input of Vibration Model : A System for Two-Dimensional Vibrations of Multibody Systems
- Development of an Active Vibration-Canceling System Using Inertial Force Generators