日本機械学会論文集 C編 53 巻, 494 号

厚肉回転円筒殻の振動解析

The basic equations for a thick rotating cylindrical shell, including the effects of the initial tensions and resultant shear stress due to rotation, are derived by the Timoshenko type shell theory. By the modified Galerkin's method, frequency analyses are presented for three kinds of boundary conditons (i. e., both ends (A) clamped, (B) simply supported without axial constraint, and (C) simply supported with axial constraint) . Numerical results are compared with those based on Flugge type shell theory and the difference between both theories is examined.

鉛直加振下の粘性液体層表面の安定性 : 1/2亜調和励振および調和励振について

The stability of the free surface of a viscous liquid layer with a horizontally infinite extent under a vertical oscillation is investigated theoretically using linear perturbation theory. In this paper, the vertical oscillation is assumed to be sinusoidal. In the case that the liquid layer consists of a perfect fluid, this problem is reduced to Mathieu's equation. In regard to a viscous fluid, the approximate solutions of the given wave numbers are found analytically in the case of 1/2 subharmonic and harmonic resonance, and the stability boundaries for various wave numbers, i.e. the neutral stability curves, are obtained in the frequency-amplitude plane. It is found from these neutral stability curves that 1/2 subharmonic resonance arises within most of the parameter ranges, but harmonic resonance does so only in the case of a thin liquid layer.

振動式管内自走機構に関する基礎的研究 : 第2報,走行体の走行特性

This paper proposes a new vehicle that moves inside small pipes with inner diameters of less than 100 mm in order to maintain and inspect them. The vehicle is surrounded by bristles vibrated by centrifugal force provided by rotating eccentric weights. Since this method does not require wheels or reduction gears, there is a good potential for miniaturization. First, the sliding velocity of each bristle and its friction are discussed. Then, moving simulations and experiments are conducted using a vehicle with 16 bristles in order to clarify the relationship between the moving velocity of the vehicle and the angular velocity of the rotating eccentric weights. It is shown that the vehicle moves smoothly inside a small pipe. The calculated moving velocity agrees with the experimental results.

曲りのある軌道上を走行する軸箱弾性支持台車の左右強制振動解析

In this paper, the authors theoretically analyze the forced hunting of a bogie truck model composed of at least a six degrees of freedom system when a truck with elastically suspended axles, such as a SHINKANSEN truck, runs on a rail with sinusoidal irregularity in regard to the lateral direction of the track. As an analytical result, various optimum values, for example the supporting stiffness of the axles, the turning stiffness of the truck and the wheel tread conicity etc., for avoiding the resonant-state of the truck due to rail irregularity are revealed. It is also clear that installing a damper against truck turning is an effective method for preventing forced hunting due to rail irregularity. Target values for designing high speed vehicles are proposed.

鉄道車両のアクティブサスペンション

For the purpose of improving the ride quality, an actively controlled suspension system for railroad passenger cars has been developed using pneumatic servo elements. On each truck, two pneumatic cylinders are mounted parallel to the conventional air springs and a lateral hydraulic damper. The signals from lateral accelerometers set on the car body floor are finally fed into pneumatic servo valves after the gain and phase are moderately compensated. In 1984, running tests with the series 485 limited express electric cars incorporated with this system were performed on the Touhoku Line. The lateral vibrational accelerations were reduced by the active control. The effect on reducing the vibrations was approximately 50% on average.

編成車両の後尾車の振動

From the vibration data collected on the Shinkansen, it is recognized that the vibration amplitude of the tail car is greater than that of the other cars in a train. although the tail car is identical with the head car. In order to analyse the reason. we have investigated whether or not the greater vibration of the tail car comes from the hunting characteristics of a "coupled train". First, the stability of cat body hunting motion and the vibration modes were calculated. Next, for the purpose of evaluating how the hunting characteristics were reflected in a vibration response to track irregularity, the vibration responses in a "coupled train were calculated. The result shows that one reason for the greater vibration of the tail car might be in the vibration modes of hunting motion in a "coupled train ".

空気調和機の動特性シミュレーションの研究

Since household appliances in recent years have been able to use inverters, an inverter driven air conditioner aiming at economical and comfortable air conditioning has appeared. Along with this, the development of a new controller unlike conventional ones, has become necessary. We have consequently studied a computer aided simulation technology for dynamic characteristics of air conditioners. The model of dynamic characteristics of air conditioners was divided into a refrigerating system and an air conditioning system. The statistical mathematic model was utilized for the former, while the physical model based on thermodynamics was realized for the latter. A Simulation using these models was performed. After the adequacy of the models was confirmed by experimental comparison, it was applied to evaluate the various parameters of the controller and to consider a new control algorithm. Simulation technology is thus an effective step for determining the control specifications.

ルビー高圧力センサの一軸圧縮応力下の特性

A ruby pressure sensor, detecting hydrostatic pressure (up to 100 GPa) by the shift of ruby R* R2 fluorescence wavelength, is compressed by uniaxial stress generated by diamond anvils with a lever-type loading apparatus. Two ruby plates, each having (112^^-0) and (0001) crystal planes, are loaded in order to investigate the anisotropic sensitivity. The sensitivities for pure uniaxial stress are obtained from the experimental data and FEM stress analysis of the ruby. Obtained sensitivities for (112^^-0) and for (0001) crystal planes are 0.141 7±0.002 0 nm/GPa and 0.077 9±0.003 2 nm/GPa respectively in the R₁ fluorescence line. These values are indispensable in studying the stress field of a pressure chamber and the utility of the ruby sensor will be enlarged.

円筒ころ軸受の静的回転精度について

The quasi-static vibratory analysis of a rotor supported by cylindrical roller bearings is presented. The system is an ideal cylindrical roller bearing in which the inner ring moves in a radial plane with two degrees of freedom under a constant radial load. The load/deformation relation for an elastic contact is expressed by the function with an arbitrary power index, and the motion of the inner ring center due to roller revolution is analyzed in detail. The case in which the spring is a one-sided linear is also analyzed. The results show that the inner ring motion has complicated features, and changes drastically with the design and operating conditions. All computed results are arranged in charts in which approximate wave forms of the inner ring motion and its magnitudes, and the loaded states of rollers are presented. They may be used in the design process to examine the rigidity, the critical speed, and the vibratory nature of a rotor system.

グラフ理論による動力伝達軸系の動的挙動の解析 : モータの特性, 支持台の剛性, 歯車の剛性を考慮した場合

The importance of system design in the field of mechanical engineering has been increasingly recognized recently. But suitable and useful methods for machine design are not yet established. So we must derive easy and useful designing methods for each machine element. In the previous report, we derived a new designing method by linear graph theory and analyzed the results of the dynamic behaviour of a power transmission mechanism as an example. In the report, we understand that the mechanisms which are subject to restrictions of high accuracy and high performance must be designed by considering the characteristic of each machine element. This report deals with a more general power transmission mechanism containing a motor, bearing, support and so on, and analyzes the results of dynamic behaviour. Provided that the analytical model and system graph as in this report are prepared for the mechanism, the performance of the mechanism is easily grasped by this method.

はすば歯車の運転性能に及ぼす基準圧力角の影響

This paper presents a study on the dynamic behavior of helical gears of full depth and long teeth with various standard pressure and helix angles. Natural frequencies of flexural vibration of gear body were measured and compared with the results calculated by Mindlin's method. The relations between these natural frequencies and spectra of circumferential, radial, and axial vibrations were investigated. The circumferential, radial, and axial vibration accelerations, and the root stresses were measured under different running conditions by using a gear testing machine of the power absorbing type. On the basis of these results, the effects of pressure angle, helix angle, and whole tooth depth on the vibrations and dynamic load of helical gears were clarified to a considerable extent.

はすば歯車の曲げ疲労強度に及ぼす基準圧力角の影響

This paper presents a study on the effect of standard pressure angle on the bending fatigue strength of helical gears. The root stresses of meshing helical gears of various pressure angles, helix angles and whole tooth depths were calculated by using the approximate equations for deflection and bending moment due to a concentrated load on gear teeth of full depth and long teeth with various pressure angles and Kubo and Umezawa's method. Bending fatigue tests were performed on helical gears of full depth teeth of various pressure angles and helix angles. On the basis of these results, the effects of pressure angle, helix angle and whole tooth depth on the root stresses and bending fatigue strength of helical gears were clarified to a considerable extent.

境界適合座標系を用いた潤滑流れ計算のはん用化に関する研究 : 第1報,DF法の基礎式と非圧縮性流体の場合

A new method of the direct numerical calculation for the fluid film lubrication problem is presented in this paper. The present method is derived by applying the boundary fitted coordinates system to the divergence formulation (DF) method. It is made possible by the present method to deal with an arbitrary configuration of lubricated surface, so a disadvantage of DF method compared with the finite element method was solved. The present method has the following advantages : (1) An arbitrary configuration of lubricated surface can be calculated. (2) A programing is easy. (3) A scale of program and cpu time are small, so the calculation by a personal computer is possible.

金属薄板の降伏特性とプレス成形性 : 純粋張出し成形の検討

Based on Bassani yield criterion, a computer simulation of axi-symmetrical pure stretch-forming is attempted. A method for estimating the coefficient of friction necessary for the calculation is presented by extending Hill's method. The results calculated for four kinds of metal sheets are compared with the experimental data. The strain distribution and the farcture position are found to be sensitive to the shape of the yield locus, that is, anisotropic yielding, and it is concluded that the Bassani criterion is much more useful for the simulation than Hill's old criterion.

スパイラル式多層容器製造装置

Spirally wound layered vessels are a type of multi-layered vessel used as high pressure vessels in chemical plants, etc., and consist of an internal shell around which hoop steel is wound spirally in layers. Stable, automatic winding and high-speed welding of hoop steel are major considerations to ensure efficient production of high-quality spirally wound layered vessels. For these purposes, the hoop steel must be wound with a uniform gap between the hoop steel and minimum clearances between the layers. In order to develop winding equipment which will meet these requirements, tests were carried out to determine which parameters should be controlled and by what method. As a result, it was found that if hoop steel is controlled at a proper angle, both the gap between the hoop steel and the clearances between the layers will be within the target values and the ASME requirements.

多目的計画問題の実用的解法

The aim of this paper is to provide a mathematical model for interactive decision making problems under multiple objectives, where the information about the decision maker's preferences is expressed in the form of aspiration levels. It is shown that the proposed mathematical model can be used not only for satisficing decision making but also for Pareto optimization ; this model is equally applicable to Single Criterion Decision Making (SCDM) problems. For the optimization of the mathematical model, Box's Complex Search (a derivative free method) with some simple modifications is proposed. Finally, a metal cutting problem is formulated and solved.