The flowchart for designing the whole suspension structure has been provided.
给出了磁力支承系统设计的流程图;
Suspension structure is adopted for the gravity-flowing packing machine with tri-flow control.
该包装机是具有三次流量控制的自流式包装机,采用吊挂式结构。
The compact torsion bar suspension is one of important suspension structure types applied in popular passenger cars.
紧凑型扭杆弹簧悬架是普及型轿车中采用的一种主要的悬架结构形式。
This paper establishes the vibratory motion equation of two kinds of core-tube suspension structure, derives rigidity matrix ;
本文针对两类核筒悬挂结构建立了振动方程,推导了刚度矩阵;
Then the suspension structure and the automobile wheel alignment parameters that decided by suspension has a direct effect to vehicles handling stabil.
其中汽车悬架的结构型式以及由悬架所决定的汽车车轮定位参数对汽车的操纵稳定性有着最直接的影响。
In this paper, the computable model and function of pounding between the suspended part and the core-wall of the suspension structure was brought forward.
针对核筒悬挂结构悬吊楼层与芯筒之间的碰撞问题,提出了计算模型并推导了相应的计算公式。
The results show that the research program improves design efficiency of the rear suspension structure, optimizes the structure of parts and reduces costs.
结果表明本研究方案提高了后悬架结构的设计效率,优化了零部件的结构,降低了成本,也为其它机械产品的研制和开发提供了一种手段。
That is to say, the core-tube suspension structure can fully be safe as well as applied while it has multiple seismic fortification lines through deliberate design.
因此,核筒悬挂结构完全可以通过精心设计使该类结构具有多道抗震防线,使悬挂结构既具有安全性又具有适用性。
Secondly, the actuator prototype is designed based on the rear suspension structure of a typical passenger car with consideration of actual structure and work characteristics.
其次,以一个典型的轿车后悬架为例,考虑其实际结构要求及工况,设计了电机作动器原理样机。
Facts indicated that under external loads suspension structure might float, so that parts of the slings which connected the main cable with the below suspension structure might be relaxed.
事实表明悬索结构在外激作用下,下部结构可能会发生飘浮,致使连接下部结构和主索的吊索部分产生松弛。
The unique Fractal Tree Suspension of the wheels was designed to be a light, flexible and strong, evolved as structure of a branch.
独特的车轮分型树形悬挂是为了达到轻便,灵活而又坚韧,如果树枝的进化一样。
As an important part of supporting structure, anchoring controls the project progress of suspension bridge.
锚碇作为承力结构的重要部分,是悬索桥的重点控制性工程。
Structure and property of epoxidized trans-1,4-polyisoprene(ETPI) by water phase suspension method was studied.
研究了水相悬浮法合成环氧化反式-1,4-聚异戊二烯(ETPI)的结构与性能。
The conclusions are useful to the structure design of electrostatic suspension.
所得结论对于静电悬浮结构设计有一定指导作用。
Correspondingly, an electrical active suspension configuration is proposed, and its working principle and structure are described.
相应地,提出了一种电动主动悬架,并就其工作原理及结构方案进行了描述。
Suspension bridge is a type of flexible structure with high degree of statical indeterminacy and composite by different components (main cable, suspender cable and pylon) with different stiffness.
悬索桥是一种高次超静定柔性结构,由刚度相差较大的构件(主缆、吊索、加劲梁)组成。
The examples of application of inside suspension bogies abroad are described. The structure(features) and application of the type of bogies are analyzed.
介绍了国外内侧悬挂式转向架的应用实例,分析了该类型转向架的结构特点和运用情况。
The structure and its principle of suspension system are given.
文中简述了磁浮列车悬浮系统的基本结构和原理。
This paper introduces the histories and present states of suspension Bridges all over the world and formulates the structure characteristics and basic calculation theories in detail.
本文介绍了世界各国悬索桥的历史及现状,对悬索桥的构造细节、结构形式以及计算理论作了详细的阐述。
Suspension rubber bushings being important loaded structure parts on suspension, its deformation response characteristics can influence the suspension performance directly.
悬架橡胶衬套作为悬架重要的承载结构零件,其变形响应特性直接影响到悬架性能。
Having merits of large spanning ability, light weight and aesthetical structure, suspension Bridges are the first choice for ultra-long-span Bridges.
由于具有跨越能力大、结构轻型美观的优点,悬索桥已成为特大跨度桥梁的首选桥型。
In concrete construction, improvement is made to traditional suspension crossing structure.
在具体施工中,对传统悬索跨越结构作了改进。
So we suggest that the design of suspension should keep out of the structure which can result in generating interference stress.
建议在设计悬架系统时,尽量避免导致系统产生“干涉应力”的结构出现。
Various suspension system structure and principle are introduced, and problems in suspension design and study direction are concluded in this paper.
文中对不同悬架系统的结构和原理进行了介绍,并对目前悬架设计中存在的问题和研究的方向进行了总结。
This paper analyzes the structure of the primary suspension with chevron rubber spring to find out the critical dimensions which may influence the height of bogie frame.
对采用人字形弹簧的一系悬挂进行结构分析,找出一系悬挂中影响构架高度的几个关键尺寸。
This paper analyzes the structure of the primary suspension with chevron rubber spring to find out the critical dimensions which may influence the height of bogie frame.
对采用人字形弹簧的一系悬挂进行结构分析,找出一系悬挂中影响构架高度的几个关键尺寸。
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