《接觸網(wǎng)工程與設(shè)計(jì)》是作者對(duì)多年工程實(shí)踐和教學(xué)工作的總結(jié),是在本科教學(xué)講義基礎(chǔ)上,結(jié)合鐵道部高速客專班及干部培訓(xùn)班授課內(nèi)容進(jìn)行撰寫的,內(nèi)容豐富、數(shù)據(jù)詳實(shí),收錄了近年來(lái)高速接觸網(wǎng)取得的新認(rèn)識(shí)和新成果!督佑|網(wǎng)工程與設(shè)計(jì)》共11章,包括
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目錄
第1章 電氣化軌道交通概述 1
1.1 電氣化軌道交通的起源與發(fā)展 1
1.2 牽引供電系統(tǒng)的基本組成 2
1.3 牽引網(wǎng)的供電方式 7
1.4 接觸網(wǎng)的形式與特性 10
1.5 電氣化軌道交通對(duì)接觸網(wǎng)的基本要求 16
1.6 接觸網(wǎng)的研究?jī)?nèi)容與發(fā)展方向 17
1.7* 與接觸網(wǎng)相關(guān)的鐵道常識(shí) 18
第2章 接觸網(wǎng)的設(shè)備與結(jié)構(gòu) 33
2.1 支柱與基礎(chǔ) 33
2.2 接觸網(wǎng)橫向結(jié)構(gòu)——支持與定位 35
2.3 懸掛與線索 47
2.4 接觸網(wǎng)的縱向結(jié)構(gòu) 75
2.5 接觸網(wǎng)的電氣特性與安全 94
2.6 接觸網(wǎng)零部件 115
第3章 接觸軌 119
3.1 第三軌 119
3.2 架空接觸軌 126
第4章 氣象條件對(duì)接觸網(wǎng)的影響 134
4.1 選擇設(shè)計(jì)氣象條件的基本原則 134
4.2 溫度對(duì)接觸網(wǎng)的影響及取值 136
4.3 風(fēng)對(duì)接觸網(wǎng)的影響及取值 138
4.4 冰雪對(duì)接觸網(wǎng)的影響及取值 144
4.5 空氣中的活性物質(zhì)對(duì)接觸網(wǎng)的影響 147
4.6 雷電日和雷閃頻數(shù) 149
4.7 地震震級(jí)和地震烈度 149
4.8 其他計(jì)算氣象參數(shù) 151
第5章 接觸網(wǎng)的機(jī)械計(jì)算 153
5.1 基本荷載及其計(jì)算 153
5.2 弛度和張力計(jì)算 158
5.3 最大許用跨距的確定 165
5.4 錨段長(zhǎng)度的確定 187
5.5 安裝曲線的計(jì)算與繪制 198
5.6 腕臂及腕臂柱荷載分析與計(jì)算 207
5.7 軟橫跨支柱荷載計(jì)算 220
5.8 支柱基礎(chǔ)的穩(wěn)定性校驗(yàn) 224
第6章 電氣化鐵路接觸網(wǎng)的電氣特性與計(jì)算 236
6.1 接觸網(wǎng)的載流量 236
6.2 接觸網(wǎng)電場(chǎng) 243
6.3 接觸網(wǎng)的電磁影響 246
6.4 諧波干擾 249
第7章 弓網(wǎng)系統(tǒng)設(shè)計(jì) 252
7.1 概述 252
7.2 受電弓的基本特性 253
7.3 受電弓的性能優(yōu)化 257
7.4 弓網(wǎng)相互作用特性 262
7.5 弓網(wǎng)動(dòng)態(tài)相互作用仿真 278
7.6 弓網(wǎng)參數(shù)對(duì)集電質(zhì)量的影響 291
第8章 接觸網(wǎng)工程設(shè)計(jì) 303
8.1 設(shè)計(jì)內(nèi)容與標(biāo)準(zhǔn) 303
8.2 平面圖及平面布置 314
8.3 接觸網(wǎng)CAD概述 326
第9章 接觸網(wǎng)施工與管理 330
9.1 施工流程與工藝 330
9.2 接觸網(wǎng)施工管理 351
第10章 接觸網(wǎng)施工計(jì)算 359
10.1 腕臂預(yù)配計(jì)算 359
10.2 整體吊弦長(zhǎng)度計(jì)算 366
10.3 軟橫跨結(jié)構(gòu)預(yù)制計(jì)算 370
第11章 接觸網(wǎng)運(yùn)營(yíng)與管理 377
11.1 運(yùn)營(yíng)機(jī)構(gòu)及職能 377
11.2 作業(yè)制度和管理 378
11.3 工程介入 388
11.4 接觸網(wǎng)信息管理系統(tǒng) 391
第12章 接觸網(wǎng)檢測(cè)與狀態(tài)評(píng)估技術(shù) 394
12.1 接觸網(wǎng)檢測(cè)概述 394
12.2 接觸線空間位置參數(shù)的測(cè)量 395
12.3 接觸網(wǎng)彈性測(cè)量 397
12.4 弓網(wǎng)接觸力測(cè)量 398
12.5 燃弧的測(cè)量 402
12.6 定位點(diǎn)處接觸線抬升的測(cè)量 403
12.7 接觸網(wǎng)溫度的測(cè)量 404
12.8 接觸網(wǎng)視覺(jué)巡檢裝置 405
12.9 接觸網(wǎng)狀態(tài)評(píng)估 407
第13章 接觸網(wǎng)課程設(shè)計(jì) 411
13.1 課程設(shè)計(jì)的目的和要求 411
13.2 課程設(shè)計(jì)的基本任務(wù) 411
13.3 課程設(shè)計(jì)的基本流程和內(nèi)容 413
13.4 課程設(shè)計(jì)應(yīng)提交的設(shè)計(jì)文件和要求 414
13.5 課程設(shè)計(jì)中應(yīng)正確對(duì)待的幾個(gè)問(wèn)題 415
附錄1 接觸網(wǎng)常用支柱參數(shù)表 416
附錄2 接觸網(wǎng)常用各類銅絞線的機(jī)電參數(shù) 422
附錄3 接觸網(wǎng)常用各類鋼鋁絞線的機(jī)電參數(shù) 425
附錄4 接觸網(wǎng)平面圖圖例 428
附錄5 接觸網(wǎng)站場(chǎng)平面圖[站場(chǎng)咽喉區(qū)部分] 插頁(yè)
附錄6 接觸平面圖(工程數(shù)量、設(shè)計(jì)說(shuō)明、圖標(biāo)部分) 插頁(yè)
主要參考文獻(xiàn) 430
Table of Contents
1 Introduction to electrical rail transit 1
1.1 Origin of electrical rail transit 1
1.2 Main components of traction power supply system 2
1.3 Types of traction power supply systems 7
1.4 Types and characteristics of overhead contact line system 10
1.5 General requirements of electrical rail transit 16
1.6 Main researches and their development 17
1.7 General railway knowledge related to overhead contact line system 18
2 Installations and structures 33
2.1 Poles and foundations 33
2.2 Supporting assembly 35
2.3 Catenary suspension and cables 47
2.4 Structures along the track 75
2.5 Electrical safety device/equipment 94
2.6 Components 115
3 Conductor rail system 119
3.1 Third rail Power supply system 119
3.2 Overhead conductor rail 126
4 Climatic conditions 134
4.1 General specifications on the selection of climatic parameters 134
4.2 Temperature 136
4.3 Wind velocities and wind loads 138
4.4 Ice and snow accumulation 144
4.5 Active substances in the air 147
4.6 Lightning voltage surges 149
4.7 Earthquake and its damages 149
4.8 Others 151
5 Mechanical calculation 153
5.1 Basic loads and their calculation 153
5.2 Calculation of sag and tensile force 158
5.3 Determination of maximum permissible span length 165
5.4 Determination of tension length 187
5.5 Calculation and plot of conductor statechange curve 198
5.6 Load analysis and calculation of cantilevers and poles 207
5.7 Load calculation on Headspan poles 220
5.8 Verification of the stability of foundations 224
6 Electrical calculation 236
6.1 Ampacity calculation 236
6.2 Electric field calculation 243
6.3 Systems and their calculations 246
6.4 Harmonic interference 249
7 Design of pantograph and overhead contact line system 252
7.1 General 252
7.2 General characteristics of pantographs 253
7.3 Performance optimization of pantographs 257
7.4 Interaction between pantographs and overhead contact line systems 262
7.5 Simulation of the dynamic interaction between contact line pantograph and overhead 278
7.6 Influences on current collection quality 291
8 Engineering design 303
8.1 Substance and standard 303
8.2 Layout plan 314
8.3 Introduction to CAD design 326
9 Construction technology and engineering management 330
9.1 Construction process 330
9.2 Engineering management 351
10 Construction calculation 359
10.1 Dock planner calculation of supporting assembly 359
10.2 Calculation of the integral dropper length 366
10.3 Configuration the geometrical parameters of headspan 370
11 Management and maintenance 377
11.1O perating agency and its function 377
11.2O perating system and management 378
11.3 Participant in construction 388
11.4 Information management system 391
12 Detection and status evaluation technology 394
12.1 Introduction to the detection 394
12.2 Geometric measurement 395
12.3 Elasticity measurement 397
12.4 Contact force measurement 398
12.5 Electric arc measurement 402
12.6 Uplift value measurement of contact wire at supports 403
12.7 Temperature measurement 404
12.8 Visual inspection device 405
12.9 Status evaluation 407
13 Curriculum design 411
13.1 Objective and requirements 411
13.2 Basic tasks 411
13.3 Basic procedure and main contents 413
13.4 Required design document and its requirements 414
13.5 noticed questions 415
Appendix1 Parameters list for commonly used pole of overhead contact line system 416
Appendix2 Mechanical and electrical parameters of strand conductor made of copper 422
Appendix3 Mechanical and electrical parameters of strand conductor made of steel and aluminum 425
Appendix4 Symbols for the overhead contact line used in layout plans 428
Appendix5 Overhead contact lines layout (partial view) illustration illustration
Appendix6 Overhead contact lines layout (engineering quantity,desing explanation, icons section illustration illustration
Reference 430