double cylinder meaning in Chinese
双瓶式
双汽缸的
Examples
- Then we have accomplished the laser holographic interferometry experiments of shock wave diffracting double cylinders model in bend , double knives model and double cubes model . the experimental interferograms are obtained
然后,完成了弯道双圆柱体模型、双刀口模型、双立方体模型的激波绕流激光全息干涉实验,获得了实验干涉图像。 - Power bond graph is used to established the bond graph model of the lifting and dropping of hydraulic pile hammer and state space equation in the paper for hydraulic pile hammer is perplexing nonlinear system . in order to attain the graph that pressure , position , velocity , acceleration vary with time in the course of driving pile simulation procedure solving state space equation is designed on the basis of combining four - order runge - kutta method with predicator - corrector method , dynamic simulation of the hydraulic system is studied in matlab 6 . 5 . it is convenient to analyse dynamic characteristics of the hydraulic syste m , beneficial to the design and parameter optimization of the hydraulic system . in the final part of the paper , under detailed analysis of the control characteristics for double - acting hydraulic pile hammer with double cylinders , control system based on the programmable logic controllers founded on technology of modern compute is designed
由于液压打桩锤液压系统是一个复杂的非线性系统,本文采用功率键合图法建立液压打桩锤上行、下降的键合图模型和状态空间方程,通过四阶龙格?库塔法和预估?校正法相结合编制了仿真程序对状态空间方程求解,在matlab6 . 5中进行液压系统的动态仿真,获得液压打桩锤运动过程中压力、位移、速度、加速度等随时间变化的曲线图。此曲线图方便了对液压系统动态特性分析,为液压系统的设计和参数优化提供了有益的借鉴。最后,在深入分析双缸双作用液压打桩锤控制系统的功能要求后,采用了以现代计算机技术为基础的新型工业控制装置? plc可编程控制器,设计出了双缸双作用液压打桩锤的电器控制系统。 - This drilling adopts crank connecting link and walking beam percussion mechanism , which make the drilling possess two percussive functions , normal drilling takes connecting link impact as main mode , when encountering special situation and the connecting link impact can not drill , it can transform into hoisting impact , the stroke length can be modulated , it realizes automatic percussive drilling due to continuous operating of connecting link percussive mechanism , these can enhance drilling efficiency and relieve labor intensity ; it adopts pumping reverse circulation to drain slag , which not only resolves the drilling difficulty in special stratum such as pebble and gravel stratum and hard stratum , but also resolves the problem that the percussive drill ' s efficiency is low ; it adopts spur gear differential mechanism as double cylinders lazy tongs of main hoist , which not only ensures the balance state of drilling tool , but also reduces the mechanical design , and reduces the cost ; the bottom plate traveling motion of this drilling machine adopts walking type ; the drilling tower adopts hydraulic pressure uprising , and reduces the assistant operating time
该钻机采用曲柄连杆、游梁式冲击机构,使钻机具有两种冲击功能;正常钻进以连杆冲击为主,遇到特殊情况,用连杆冲击不能钻进时,可转为卷扬冲击,冲程可调,因连杆冲击机构连续工作,所以实现了自动冲击钻进,可提高钻进效率,减轻劳动强度;采用泵吸反循环的方式排渣,既能有效解决卵砾石地层、坚硬地层等特殊地层钻进的困难,又很好地解决了冲击钻机效率低下的问题;采用直齿圆柱齿轮差速机构作为主卷扬的双筒同步机构,既保证了钻具处于平衡状态,又大大简化了该机构设计,降低了成本;该钻机底盘行走移位采用步履式;钻塔采用液压起立,减少了辅助作业时间。 - Mechanical impact dynamics is used to analyse the production and spread of stress wave when hydraulic pile hammer hammerblows piles , the stress wave influence the course of driving pile . slender hammer that is equal to wave resistance of the pile can bring ideal stress waveform . when the hammer weight is constant , efficiency of driving pile can be increased by means of selecting drive cap and cushion pad of different rigidity to match the hammer according to various geological condition and the pile . the structure and principium of hydraulic system of double - acting hydraulic pile hammer with double cylinders is studied in detail in the paper , the hydraulic system and electric control system of six - ton - double - actin hydraulic pile hammer with double cylinder is designed on the basis of it
本文应用冲击机械系统动力学分析打桩过程中锤体与桩撞击时应力波的产生、传播以及该波对沉桩过程的影响。认为与桩等波阻的细长状锤体能够产生理想的应力波波形;在桩锤重量一定的情况下,可针对不同的地质情况和桩,通过选择不同刚度的桩帽和桩垫与其匹配来提高打桩效率。本文对双缸双作用液压打桩锤液压系统的结构和工作原理进行了深入的研究,并在此基础上设计出六吨双缸双作用液压打桩锤的液压系统和电控系统。