配網(wǎng)10 kV絕緣橫擔(dān)典型布置方案概述
宗強(qiáng)1�,郁杰2�,方江2�����,李德權(quán)2
(1 南通電力設(shè)計(jì)院有限公司,江蘇 南通 226004;2 江蘇神馬電力股份有限公司����,江蘇 南通 226500)
摘 要:復(fù)合材料絕緣橫擔(dān)的推廣和應(yīng)用,有利于解決由感應(yīng)雷引起的雷擊斷線問題�����。對《10 kV架空絕緣線路絕緣橫擔(dān)典型布置方案》進(jìn)行了闡述��,介紹了典型設(shè)計(jì)所取得的成果�,明確了絕緣橫擔(dān)在海拔、氣象區(qū)����、桿型等的應(yīng)用范圍及導(dǎo)線的選取和使用,豐富了桿頭布置形式�����,完善了絕緣配合及防雷接地方式���,匯總了橫擔(dān)的結(jié)構(gòu)形式�,系列化了橫擔(dān)的尺寸規(guī)格�,解決了絕緣橫擔(dān)引下線的布置�。為提高10 kV線路的耐雷水平�,特別是為避免線路因感應(yīng)雷擊跳閘及斷線提供了保障。
關(guān)鍵詞:絕緣橫擔(dān)��;典型設(shè)計(jì)��;桿塔��;雷擊
中圖分類號:TM726.3 文獻(xiàn)標(biāo)識碼:A 文章編號:1007-3175(2018)01-0001-05
Typical Arrangement Scheme Overview of 10 kV Distribution Network Insulation Crossbar
ZONG Qiang1, YU Jie2, FANG Jiang2, LI De-quan2
(1 Nantong Electric Power Design Institute Co., Ltd, Nantong 226004, China;2 Jiangsu Shemar Electric Co., Ltd, Nantong 226500, China)
Abstract: The promotion and application of composite material insulating crossbar are in favor of solving the problem of lightning stroke disconnection caused by the inductive thunder. This paper expounded the "10 kV overhead insulated wire insulation crossbar typical arrangement". Introduction was made to the achievement of typical design. This paper made clear the applied arrangement and wire selection and usage of elevation, weather zone, pole type and so on, enriched the pole head arrangement form, improved the insulation coordination and lightning protection grounding mode, summed up the crossbar structure style, serialized the size of the crossbar and solved the insulation crossbar downlead arrangement, which enhances the lightning withstand level of 10 kV overhead line, especially provides the safeguard for avoiding the tripping and disconnection caused by the inductive thunder lightning stroke.
Key words: insulation crossbar; typical design; pole and tower; lightning stroke
參考文獻(xiàn)
[1] 張東霞�,王繼業(yè),劉科研�����,等. 大數(shù)據(jù)技術(shù)在配用電系統(tǒng)的應(yīng)用[J]. 供用電����,2015,32(8): 6-11.
[2] 段緒金�����,齊飛���,葉會生�,周恒逸����,劉味果,趙邈. 配網(wǎng)防雷現(xiàn)狀與治理措施研究[J]. 電氣應(yīng)用�,2015,34(S1):17-20.
[3] 黃清社���,徐奔�����,彭利強(qiáng)���,等.10 kV架空絕緣導(dǎo)線防雷保護(hù)的措施研究[J]. 高壓電器,2010��,46(12):32-35.
[4] 李景祿�,吳維寧,楊廷方����,李志強(qiáng). 配電網(wǎng)防雷保護(hù)的分析與研究[J]. 高電壓技術(shù),2004����,30(4):58-59.
[5] 陳濤.10 kV配網(wǎng)的設(shè)計(jì)問題探討[J]. 黑龍江科技信息�����,2010(36):69.
[6] 吳以綱. 淺談如何提高10 kV配網(wǎng)供電可靠性的技術(shù)措施[J]. 廣東科技�,2008(6):125-126.
[7] 帥玲�,畢濤,李榮兵. 有機(jī)材料在10 kV絕緣橫擔(dān)上的應(yīng)用與發(fā)展[J]. 山東工業(yè)技術(shù)�,2014(14):93.
[8] 郁杰,趙雪林�,顏啟昕. 特高壓直流線路復(fù)合轉(zhuǎn)動橫擔(dān)關(guān)鍵制造技術(shù)及電氣試驗(yàn)[J]. 電瓷避雷器,2016(1):21-25.
[9] 王東��,林國明����,兌瀟瑋,魯宗相. 配電網(wǎng)典型接線的可靠性與經(jīng)濟(jì)性綜合評估[J]. 供用電���,2014��,31(1):56-60.
[10] 范明天. 中國配電網(wǎng)面臨的新形勢及其發(fā)展思路[J]. 供用電�,2013�����,30(1):1-5.
