作为导气式供弹机驱动器,弹簧储能驱动器可将能量形式转化后储能,从而缓冲供弹机中各工作构件的撞击,改善其受力状况。
As a driver of gas operated feeder, spring energy storage driver can transform energy form to store energy so as to buffer strike on working parts of feeder to improve forced state effectively.
功能上与加速器类似,增强器一般利用压缩气而不是用机械弹簧来存储在作业时所释放的能量。
Similar in function to an accelerator, intensifiers typically use compressed gas rather than a mechanical spring to store the energy released during operation.
直线电机和反力板间的垂向电磁作用力随气隙值动态变化,将其简化为特殊的线性弹簧。
The vertical electric magnetic force between LIM and reaction plate which dynamically varied with the air gap is simplified as special linear spring.
按单自由度刚体弹簧体系求得了气浮结构升沉运动的固有周期,并对气浮结构的动态特性进行了分析。
Simplifying the air floated structure as a single freedom rigid body and spring system, the inherent period of heaving and some kinetic properties are presented.
结果表明,空气弹簧气囊外形及材料特性、附加气室容积和节流孔直径是影响空气弹簧性能的主要因素。
The results show that shape of the air cell, properties of the material, volume of the appended gas chamber and diameter of the throttle hole are main factors affecting the dynamics of air springs.
建立了带附加气室空气弹簧系统的动力学方程,经过线性化处理后推导出系统的复刚度模型,依照复刚度模型建立了系统的等效刚度、等效阻尼及固有频率的计算模型。
The dynamics equations of air spring system with auxiliary chamber were established, and the complex stiffness model of the system was deduced according to the equations being linearly processed.
本装置的部件有:橡胶保险杠、气内胎、有钢碗的弹簧、气皮球。
This device's parts are: rubber bumper, inflated tyre, springs with steel bowls, inflated rubber balls.
结合膜式空气弹簧的特点,设计了一个双附加气室串联的空气弹簧,确定了主要结构尺寸。
Integrating the characteristic of diaphragm air spring, the air spring with double attaching gas chamber is designed and the main structure dimensions are ascertained.
结合膜式空气弹簧的特点,设计了一个双附加气室串联的空气弹簧,确定了主要结构尺寸。
Integrating the characteristic of diaphragm air spring, the air spring with double attaching gas chamber is designed and the main structure dimensions are ascertained.
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