高压电力电缆多功能安装平台的研究
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摘要
电力线路用于输送电能,电力电缆是电力线路的重要组成部分,由于电力电缆具有安全性高、不占据地面空间、供电可靠等优点,电力电缆也常用于高压电的输送。文中介绍了高压电力电缆特点以及安装敷设技术,并研究高压电缆的多功能安装平台。详细介绍了多功能安装平台的施工方案、施工流程、安全注意事项、机械设备的安全保证措施,并对房子底部和铁塔连接方式及地板分布情况进行了细节描述。该多功能平台有利于高压电力电缆的敷设与安装,提高了安装施工的安全性及供电的可靠性,且有利于实现电力产业的可持续性发展。
Power cable is an important part of power line.Because power cable has the advantages of high security,not occupying the ground space and reliable power supply,power cable is also often used for high-voltage power transmission.The characteristics and installation technology of high voltage power cables are introduced,and the multi-functional installation platform of high voltage cablesis studied.The construction scheme,construction process,safety precautions and safety assurance measures of mechanical equipment of the multi-functional installation platform are introduced in detail.Detailed description of the connection mode between the bottom of the house and the tower and the floor distribution is given.The multi-functional platform is conducive to laying and installation of high-voltage power cables,improving the safety of installation and construction of high-voltage power cables,realizing the sustainable development of the power industry and improving the reliability of power supply.
Power cable is an important part of power line.Because power cable has the advantages of high security,not occupying the ground space and reliable power supply,power cable is also often used for high-voltage power transmission.The characteristics and installation technology of high voltage power cables are introduced,and the multi-functional installation platform of high voltage cablesis studied.The construction scheme,construction process,safety precautions and safety assurance measures of mechanical equipment of the multi-functional installation platform are introduced in detail.Detailed description of the connection mode between the bottom of the house and the tower and the floor distribution is given.The multi-functional platform is conducive to laying and installation of high-voltage power cables,improving the safety of installation and construction of high-voltage power cables,realizing the sustainable development of the power industry and improving the reliability of power supply.
引文
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[2] 王霞,余栋,段胜杰,等.高压电缆附件设计环节中几个关键问题探讨[J].高电压技术,2018,44(8):2710-2716.
[3] 谷元平.山区高铁27.5kV高压电缆安装方式研究[J].自动化与仪器仪表,2018(4):80-84.
[4] 钟力生,任海洋,曹亮,等.挤包绝缘高压直流电缆的发展[J].高电压技术,2017,43(11):3473-3489.
[5] 周斌,李龙,张健,等.电缆终端塔接地电缆固定装置的研制[J].浙江电力,2018,37(8):81-85.
[6] 马人凤,朱永华,吴建东,等.超高压直流电缆的国产化研究进展[J].绝缘材料,2016,49(11):1-8.
[7] 杨静,朱晓岭,董翔,等.基于护层电流的高压电缆故障在线监测和诊断[J].高电压技术,2016,42(11):3616-3625.
[8] 马跃,王雪川,魏鹏.220kV高压电缆敷设的要点分析[J].电站系统工程,2016,32(3):61-62.
[9] 赵宝玮,唐小峰.基于ARM9的电力电缆局部放电检测系统[J].电子科技,2009,22(8):36-38.
[10] 金金元.新型高压电缆快速充气试验装置的设计[J].光纤与电缆及其应用技术,2014(1):39-41.
[11] 王霞,王陈诚,吴锴,等.一种新型高压电缆附件优化设计方法[J].西安交通大学学报,2013,47(12):102-109.
[12] 罗容波,詹清华,王岩.局放测试技术在高压电缆交流耐压试验中的应用[J].绝缘材料,2013,46(3):76-79.
[13] 何仲,陆歆,张承信,等.高压电缆终端与GIS设备安装配合研究[J].华东电力,2012,40(5):864-869.
[14] 钟宇军,李程,孙建生,等.国内外桥梁敷设电力电缆的可行性对比分析及建议[J].浙江电力,2016,35(7):16-19.
[15] 吴宜文.高压电力电缆故障的起因诊断和处理[J].自动化与仪器仪表,2012(3):173-175.
[16] 赵骏丹,沈澍东,孟祥.隔爆型高压电缆连接器的热电耦合分析[J].电子科技,2016,29(3):172-174.