研究设计气体弹簧,利用其低刚度获得较低的共振频率,从而获得舒适的运送效果。
The gas spring is researched and designed to acquired lower resonance frequency and best damping effect, which has low regimens.
计算了空气弹簧系统的垂向刚度,并分析了气体压力和帘线角对垂向刚度的影响。
The vertical stiffness of the air spring system was calculated, and the effects of air pressure and cord Angle on it were analyzed.
有限元计算结果表明,空气弹簧系统垂向刚度随气体压力的增加而增加,随帘线角的增大而略减小。
The results show that the vertical stiffness increases with an increase in air pressure, decreases a little with an increase in cord Angle.
本发明属于气动系统节能领域,实现了一种弹簧式气体浮子流量计。
The invention belongs to the field of energy conservation in pneumatic systems and provides a spring type gas float flowmeter.
通过估算空气腔中的最大气体压力和回位弹簧的拉力,基于电磁阀设计基本原理,设计开发了一直动式电磁阀用于控制空气腔的开闭;
Based on solenoid valve design theory, by estimating the maximum air pressure and spring force, a direct operated solenoid valve is designed to control the open and close of the air chamber.
本文是在云南开关厂开发的新产品LW36- 126(三相sf6自能式气体断路器)配用的弹簧操动机构的设计工作的基础上撰写的。
This paper is finished on the basis of accomplishing the design of spring operating mechanism which can coincides with LW36-126 three-phase SF6 circuit breaker designed by Yunnan. Switches Factory.
气体推助器包括波纹管及内部弹簧、排气阀、吸气阀,气体节流调节系统包括限压阀、限速阀、隔板。
The gas throttling governing system comprises a pressure-limiting valve, a speed-limiting valve and a partition board.
空气悬架系统以空气弹簧为弹性元件,利用气体的可压缩性实现其弹性作用。
The elastic element of air suspension system is air spring. Air spring utilize the compressibility of air to realize its elasticity.
其安全阀是通过密封垫和调节弹簧构成的,当进口压力大于设定值时克服弹簧压力, 把过压气体泄放出去。
The relief valve consists of a sealer and an adjusting spring. When the inlet pressure is greater than a set value, the spring pressure is overcome to discharge over-pressure air.
假设空气弹簧的垂向刚度仅取决于内部气压 ,从工程热力学的气体多变方程出发推导了空气弹簧的垂向刚度。
Set out from the angle of the engineering applying, deduct calculations of air spring vertical stiffness with different guiding accessories.
假设空气弹簧的垂向刚度仅取决于内部气压 ,从工程热力学的气体多变方程出发推导了空气弹簧的垂向刚度。
Set out from the angle of the engineering applying, deduct calculations of air spring vertical stiffness with different guiding accessories.
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