Length optimization of straight line connecting turnout on main line in high-speed railway station yard

Taking the development of high-speed railway in China as background, and referring to the dynamic theory and wheel-rail contact mode, dynamic analysis model was established, considering the setting position of straight lines and running conditions of train in high-speed railway station yard. Using the established model, and choosing vehicle lateral acceleration and wheel suspension as the evaluation indexes, dynamic characteristic of vehicle traveling in turnout and adjacent area on main line was analyzed, and effects on travelling safety and stability of train aroused by length variation of straight lines were calculated based on analyzing the damping rules of vibration. The results show that, a certain length of straight lines can alleviate the vibration aroused in turnout and curve(turnout), length of straight lines connecting turnouts in different sections on main line was proposed to meet the demand of traveling stability, and shortening or cancelation of straight line for the scale limitation of station yard has less influence on operation safety of train.

Multi-point Contact of the High-speed Vehicle-turnout System Dynamics

The wheel-rail contact problems, such as the number, location and the track of contact patches, are very important for optimizing the spatial structure of the rails and lowering the vehicle-turnout system dynamics. However, the above problems are not well solved currently because of having the difficulties in how to determine the multi-contact, to preciously present the changeable profiles of the rails and to establish an accurate spatial turnout system dynamics model. Based on a high-speed vehicle-turnout coupled model in which the track is modeled as flexible with rails and sleepers represented by beams, the line tracing extreme point method is introduced to investigate the wheel-rail multiple contact conditions and the key sections of the blade rail, longer nose rail, shorter rail in the switch and nose rail area are discretized to represent the varying profiles of rails in the turnout. The dynamic interaction between the vehicle and turnout is simulated for cases of the vehicle divergently passing the turnout and the multi-point contact is obtained. The tracks of the contact patches on the top of the rails are presented and the wheel-rail impact forces are offered in comparison with the contact patches transference on the rails. The numerical simulation results indicate that the length of two-point contact occurrence of a worn wheel profile and rails is longer than that of the new wheel profile and rails; The two-point contact definitely occurs in the switch and crossing area. Generally, three-point contact doesn’t occur for the new rail profile, which is testified by the wheel-rails interpolation distance and the first order derivative function of the tracing line extreme points. The presented research is not only helpful to optimize the structure of the turnout, but also useful to lower the dynamics of the high speed vehicle-turnout system.

AN ANALYSIS METHOD FOR HIGH-SPEED CIRCUIT SYSTEMS

A new method for analyzing high-speed circuit systems is presented. The method adds transmission line end currents to the circuit variables of the classical modified nodal approach. Then the matrix equation describing high-speed circuit system can be formulated directly and analyzed conveniently for its normative form. A time-domain analysis method for transmission lines is also introduced. The two methods are combined together to efficiently analyze high-speed circuit systems having general transmission lines. Numerical experiment is presented and the results are compared with that calculated by Hspice.

Minimizing crosstalk for high-speed and high-density bus systems using the sample-decision method

This paper presents a method based on a sample-decision(SD) circuit to suppress crosstalk and noise for a high-speed and high-density bus system.A method to count the number of times of SD for different length of transmission lines is presented and a bit error rates(BERs) formula is given by the SD circuit.It is shown that for long transmission line systems,multiple SD circuits can improve the BERs significantly.Circuits simulation for single SD method is also done,it is found that when the amplitude peak values of the superposed crosstalk and noise are less than half of the corresponding signal ones,they will be eliminated completely for the cases investigated.

超洁净热灌装生产线关键工艺技术研究

本文对影响瓶过氧乙酸湿法杀菌的超洁净热灌装生产线的关键工艺技术进行了全面的研究,初步明确了该生产线的关键工艺技术及生产管理控制要点,对于生产线的管理和产品质量管控具有一定的指导意义。

焊瓶钢HP295表面黑线缺陷分析与质量控制

针对客户反馈的焊瓶钢HP295表面存在黑线缺陷导致在冲压后产生褶皱的质量问题,本文介绍了气瓶生产的主要工艺流程,阐述了焊瓶钢HP295的材料及轧制过程,对黑线缺陷的形态特点及冲压加工后表面褶皱情况进行了实物说明,并通过金相组织分析、能谱分析和对比分析的手段研究了焊瓶钢HP295表面黑线缺陷的产生原因。结果表明:检验分析中的焊瓶钢HP295钢板表面黑线为轧制早期产生的缺陷在过轧制过程中经碾压后体现为黑线,主要由于异物压入和铸坯上存在表面裂纹、皮下气泡和孔洞等缺陷引起。结合生产厂实际控制情况,通过组织协同优化,在炼钢工序控制铸坯表面质量和热轧工序做好清洁生产维护和设备精度管控等措施,有效控制HP295表面黑线缺陷的发生率,总缺陷率由攻关前的2%控制在用户可以接受的千分之三以内,满足了客户的使用要求。

New Monitoring Technologies for Overhead Contact Line at 400 km.h-1

Various technologies have recently been developed for high-speed railways, in order to boost commercial speeds from 300 km.h： to 400 km.h-1. Among these technologies, this paper introduces the 400 km-h-1 class current collection performance evaluation methods that have been developed and demonstrated by Korea. Specifically, this paper reports details of the video-based monitoring techniques that have been adopted to inspect the stability of overhead contact line （OCL） components at 400 km.h-1 without direct contact with any components of the power supply system. Unlike conventional OCL monitoring systems, which detect contact wire positions using either laser sensors or line cameras, the developed system measures parameters in the active state by video data. According to experimental results that were obtained at a field-test site established at a commercial line, it is claimed that the proposed mea- surement system is capable of effectively measuring OCL parameters.

塑料包装制品回收利用设备与技术(一)

本文是关于塑料制品回收设备与技术的系列文章,将分篇介绍主要塑料包装制品的回收利用设备与技术,约有六~七篇,第一篇主要介绍PET瓶破碎清洗干燥的智能生产线的设备与技术。

白酒高速灌装条件下对组合瓶盖瓶口适应性结构的对策研究

白酒高速灌装线生产使用的组合瓶盖,必须能顺利地压在瓶口上,压装后瓶盖外观完整瓶口密封完好。本文对低速白酒灌装生产中组合瓶盖与瓶口配合时常出现的典型质量问题产生的原因进行分析,并从瓶口、瓶盖结构与公差配合要求出发提出了解决方案,设计了满足白酒高速灌装线的组合瓶盖与瓶口结构,为白酒智能化灌装产业化提供技术支撑。

A two-layer optimization model for high-speed railway line planning

Line planning is the first important strategic element in the railway operation planning process,which will directly affect the successive planning to determine the efficiency of the whole railway system.A two-layer optimization model is proposed within a simulation framework to deal with the high-speed railway (HSR) line planning problem.In the model,the top layer aims at achieving an optimal stop-schedule set with the service frequencies,and is formulated as a nonlinear program,solved by genetic algorithm.The objective of top layer is tominimize the total operation cost and unserved passenger volume.Given a specific stop-schedule,the bottom layer focuses on weighted passenger flow assignment,formulated as a mixed integer program with the objective of maximizing the served passenger volume andminimizing the total travel time for all passengers.The case study on Taiwan HSR shows that the proposed two-layer model is better than the existing techniques.In addition,this model is also illustrated with the Beijing-Shanghai HSR in China.The result shows that the two-layer optimization model can reduce computation complexity and that an optimal set of stop-schedules can always be generated with less calculation time.

啤酒饮料生产线中西门子ISO-ON-TCP通讯协议应用及其标准化

在饮料啤酒生产线中为满足各个单机设备间越来越多的数据交换,各个单机设备的PLC控制系统中需要一种安全可靠的通讯方式。本文详细介绍了一种基于西门子TIA平台的ISO-ON-TCP通讯协议,及其通讯程序和数据的标准化应用。该协议可在多台PLC设备间安全的进行数据交换。通过本文方式进行处理,可进行数据块的标准化、程序的可重复性以及易操作。

基于Virtools的三维交互虚拟啤酒灌装线的构建

以虚拟啤酒灌装生产线为研究对象,对大型虚拟设备及灌装生产线的构建过程、模式方法进行了探讨和研究。通过虚拟设计、几何建模及对生产线整体运行时虚拟设备传动关系数学建模,采用Normal Mapping和Shader等次世代图形图像技术,结合Virtools实时渲染引擎,开发出场景式、高交互、超现实、网络化的虚拟啤酒灌装生产线,并将所构建的虚拟生产线应用到职业教育的生产实训和相关企业的岗前培训。

生产线虚拟设计及其应用仿真研究

针对传统生产线设计方式的缺点 ,提出一种基于虚拟制造技术的新型生产线设计方法———生产线虚拟设计 ,详细研究了其设计原理、基本特征、体系结构、设计内容和设计流程。生产线虚拟设计可有效地集成生产线的设计、仿真、分析、诊断、优化和重组等功能。结合应用实例 ,建立了生产线的虚拟模型 ,可视化地仿真其运行状态 ,迅速地诊断了其瓶颈工序 ,诊断结果与现实状况较为吻合。

瓶装饮用水的水化学、同位素特征及其指示意义

通过对四类(天然矿泉水、纯净水、矿物质水、苏打水)36种品牌瓶装饮用水的水化学与同位素组成的分析,研究了各瓶装饮用水的水化学和同位素组成特征、水文地球化学形成作用及其水源补给循环特征。研究结果表明:瓶装饮用水的TDS变化幅度较大(7.26~638.23mg/L),纯净水和矿物质水的TDS较低(7.26~47.5mg/L),水化学类型以HCO3-Na型为主,其次为HCO3-Ca·Na型和HCO3-Ca型,Gibbs图和离子比例系数揭示了各类饮用水水源在形成过程中所发生的水化学作用;瓶装饮用水中氢氧同位素组成变化幅度较大(δD:-160.21‰^-43.96‰,δ18 O:-20.91‰^-6.00‰),其同位素组成均分布我国大气降水线附近,表明各饮用水水源主要来自于大气降水补给,西南地区水样中氢氧同位素较为贫化(δD:-160.21‰^-83.83‰,δ18 O:-20.91‰^-11.58‰),东南和华北地区则较为富集(δD:-79.68‰^-43.96‰,δ18 O:-10.9‰^-6.00‰),除东北和西北地区,其他地区氘盈余(d值)均低于全球雨水的平均值10‰,反映各水样的补给水源在形成过程中受到蒸发作用的影响;高程和温度与氢氧同位素有较好的相关性,随高度增加或温度降低,瓶装饮用水中δ18 O逐渐贫化。

大输液中可见异物智能在线检测系统设计

设计了基于机器视觉的智能大输液异物在线检测系统,该系统可以实现灌装后大输液瓶中杂质的检测;研究了该检测系统的基本构成,工作原理以及一些关键图像处理技术;该检测系统采用特殊的硬件检测平台,让杂质与瓶身作相对运动,再利用精密的光学成像系统获取运动异物的序列图像,最后通过图像预处理、运动目标提取、运动目标分割和图像识别与判断这四个步骤完成对异物的检测;实验表明该系统可快速的检测出大输液溶液中所含的多种杂质.准确度高,实时性强。

基于虚拟制造技术的生产线诊断方法研究

提出一种基于虚拟制造技术 (VMT)的生产线诊断方法 ,研究了其诊断内容和设计流程。该方法可实现生产线资源的统一建模 ,并可在生产规划时对生产线的实际运行状况进行前瞻性仿真 ,快速诊断各种参数的合理性。结合应用实例 ,对生产线设计中存在的瓶颈工序进行了快速诊断 ,并对生产线进行了重组设计。该方法诊断快速简便 ,可节省资源、降低成本 ,并能考虑系统随机因素对生产任务的影响 ,诊断结果切实可信。

动作分析法在减速器装配流水线设计教学中的应用

结合学生的工科背景,以减速器装配流水线为研究对象,通过测定流水线各工位的作业时间,运用工业工程的动作分析的研究方法,找出并消除影响流水线生产能力的瓶颈工序,实现生产线的平衡,提高了学生的实验创新能力,进一步完善了工业工程实验系统的开发。

生产线虚拟仿真设计研究

基于虚拟制造技术 ,提出一种新型的生产线设计、分析、诊断、调整方法———生产线虚拟仿真设计 ,详细研究其系统结构和设计内容。结合应用实例 ,可视化仿真生产线的运行状态 ,迅速诊断生产线设计中存在的瓶颈工序 ,通过优化和调整相关参数 ,快速实现生产线重组设计 ,有效解决了生产线的平衡问题 ,为产品制造规划提供强有力的预测分析工具 ,可以快速地响应市场变化和客户个性化生产。

基于PLC改进啤酒灌装线控制系统故障诊断的研究

将啤酒自动灌装线中频繁动作的电气开关元件包括继电器、接触器、限位开关等均改为无触点化开关元件,利用可编程序控制器(PLC)改进控制系统,实时监控生产过程中出现的故障,利用PLC控制软件的程序设计对啤酒自动灌装生产线在实际应用中出现的问题进行研究和分析,找出解决问题的方法并加以修正。

广州市桶(瓶)装饮用水厂灌装车间洁净度调查报告

目的为了解广州市桶(瓶)装饮用水生产厂灌装车间空气洁净度情况,探索检测方法和评价标准。方法选取广州市有空气净化设备的生产厂15间,进行相关技术指标。悬浮粒子和浮游菌检测,参照GB/T16292～16294-1996《医药工业洁净室(区)悬浮粒子,浮游菌和沉降菌的测定方法》,GB50073-2001《洁净厂房设计规范》,GB50333-2002《医院洁净手术部建筑技术规范》的标准进行检测和评定,主要的判断标准采用浮游菌≤25cfu,悬浮粒子≥0.5μm≤35000粒/m3≥5μm≤300粒/m3。结果检测15间桶(瓶)装饮用水生产厂灌装车间空气洁净度悬浮粒子≥0.5μm和≥5μm合格率为100%,浮游菌指标合格率为92%。浮游菌和悬浮料子统计学相关分析,具有相关性(P值<0.01)。结论通过对广州市15间桶(瓶)装饮用水厂灌装车间洁净度的检测,初步了解到广州市这方面的情况,为今后制定相关标准和检测方法提供依据。根据目前情况,桶(瓶)装饮用水厂灌装车间洁净度要达到1000级存在一定的难度。