振动轮采用德国BOMAG技术。
前后振动轮均有刮泥和洒水装置;
Both front and back drum have scraper and water spray equipment.
研究了“混沌激振器”和“机架—振动轮—土”系统的混沌特征与激振器参数之间的关系。
The relationships between the chaotic characteristics of the exciter aswell as the rame rum oil system and the parameters of the exciter areinvestigated.
考虑被压实物料的不对称滞回特性,建立了振动压路机振动轮-车架系统的二质量运动模型。
A two-mass model of the vibration compacting roller and its frame is established with consideration of materials asymmetrical hysteresis.
在现有压实检测技术的基础上,通过分析振动轮土壤系统的力学模型,建立了相应的运动方程。
On the basis of the present methods of compaction testing, the mechanical model of a vibrating roller-soil system was analyzed and its dynamic equation was established.
采用数控镗铣床加工振动轮时,利用光电式寻边器替代原有的校正方式可以取得比较好的效果。
When machining vibratory drums on NC boring and milling machine, photoelectric edge detector instead of the original alignment method was used to achieve better result.
建立了一种土壤非线性力学模型,可以反映土壤弹塑性变形和振动轮跳振等不同压实阶段特点。
This paper advances a nonlinear dynamic model dealing with the jump vibration for the drum of a vibratory roller.
为此,本文给出了一种新型振动轮式微陀螺结构,可减小哥氏阻尼力,相对增大了激励哥氏力。
Therefore, this paper advances a new VWOG structure, which can decrease the Coriolis-damp-force and increase the Coriolis-exciting-force relatively.
以单自由度硅微振动轮式陀螺仪的检测动极板为控制对象,系统的结构特性决定了只能选择反馈控制方式对其进行控制。
The control object in a single-freedom silicon micromachined vibratory gyroscope is the proof mass, because of system structure, feedback control is the only choice to control the proof mass.
推导了硅微机械振动轮陀螺仪的动力学方程,给出了它的运动规律,分析了载体绕空间任意轴匀速旋转时干扰力矩所引起的漂移率。
This paper gives the dynamic equations of vibratory wheel silicon micromechanical gyroscope and their motion law, analyses drifts of the gyroscope, when vehicle rotates around any axis uniformly.
本文对主动轮的中心距按照正常、向左和向右三种情况下进行装配,研究其对微车后桥振动的影响。
In this paper, the center distance of driving gear is assembled according to the normal, left and right, then research its effect to micro-vehicle rear axle vibration.
分析了偏心链轮传动机构的运动学与动力学特性,确定了偏心链轮的振动方程、速度与加速度计算方程和从动轮的运动规律。
This article analyzed the kinematic and dynamic characteristics of cam chain wheel gearing, and put forward the vibrancy equation, speed equation and acceleration equation of cam chain wheel.
分析了偏心链轮传动机构的运动学与动力学特性,确定了偏心链轮的振动方程、速度与加速度计算方程和从动轮的运动规律。
This article analyzed the kinematic and dynamic characteristics of cam chain wheel gearing, and put forward the vibrancy equation, speed equation and acceleration equation of cam chain wheel.
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