CN203038717U - 一种额定电压20kV铝合金导体架空绝缘阻水电缆 - Google Patents
一种额定电压20kV铝合金导体架空绝缘阻水电缆 Download PDFInfo
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Abstract
本实用新型涉及一种额定电压20kV铝合金导体架空绝缘阻水电缆,包括阻水导体,在所述阻水导体的外层依次包裹有半导电内屏蔽层和黑色耐候交联聚乙烯层;所述阻水导体由铝合金单线与阻水材料填充绞制而成,导体从次外层至内层分别加入阻水材料。该电缆是额定电压为20kV的铝合金导体架空绝缘阻水电缆,能够适用于降雨量丰富的城乡输配电线路。能够解决电缆终端密封不严时,水份进入导体距离较长对架空电缆导线的氧化和腐蚀,绝缘有水树枝发生,绝缘品质下降的问题。
Description
技术领域
本实用新型属于电缆技术领域,涉及一种阻水电缆,尤其是一种额定电压20kV铝合金导体架空绝缘阻水电缆。
背景技术
我国的架空绝缘电缆执行标准为GB/T 1252-72008《额定电压1kV及以下架空绝缘电缆》及GB/T 14049-2008《额定电压10kV架空绝缘电缆》。目前我国的中压配电网基本以10kV为主。然而随着国民经济的迅猛发展,特别是在经济发达的东部沿海地区,用电负荷密度迅速增长、供电半径加大,现有的10kV配电系统容量小、负载过重、供电能力不足和供电线路末端电压低、线损损耗偏大等问题日显突出,已经很难承受急剧增长的用电负荷。
与传统的10kV配电网相比,20kV配电网电压供电半径大,不但可以增加供电能力,还可以降低75%的电力损耗,具有显著的节能效益。据测算,输送同等功率,20kV供电线路的有色金属消耗量可减少50%,节约建设投资约40%等。
一些经济比较发达的国家早已将20kV正式作为配电网的一个电压等级,如美国、加拿大、法国、德国、匈牙利、日本、韩国、新加坡、印尼、泰国和马来西亚等国已经这样做了,取得了很好的经济效益。1993年,苏州市新加坡工业园区率先采用20kV作为配电电压,已经成功地运行了将近20年,取得了良好的经济和社会效益。2009年,根据国家电网“关于推广20kV电压等级的通知”的精神,江苏省又率先在省内13个地市推广20kV电压等级试点供电项目。
另外,普通架空绝缘电缆在使用性能上也有一些问题值得关注和探讨,其中一个显著的问题便是在实践中,发现架空绝缘电缆导体容易产生进水氧化问题,由此引起导体断线的事故较多。
由于传统的铝芯架空绝缘电缆的结构和安装条件,容易因终端密封不严而造成进水,水份纵向迁移积聚在架空绝缘线路的塔距低谷处且不挥发;同时又由于环境污染水带有酸性,与铝产生氧化反应生成白色粉末,这类氧化物在电场的作用下加速对导线的腐蚀,由此引起的导线强度降低,出现鼓肚、断线等问题;水份的长期存在,造成绝缘水树枝老化严重,绝缘品质持续下降,导致架空线路地频繁维护。现代城网电力线路的集约化程度高,一旦遭到破坏,造成大面积停电、控制误动作、通信中断等事故,损失严重。
从长远规划来看,架空绝缘电缆仍然是我国今后较长一段时间内城网线路所采用的主要品种。开发20kV架空绝缘阻水电缆,提高架空绝缘电缆的产品性能,是市场的需要。
实用新型内容
本实用新型的目的在于克服上述现有技术的缺点,提供一种额定电压20kV铝合金导体架空绝缘阻水电缆,该电缆是额定电压为20kV的铝合金导体架空绝缘阻水电缆,能够适用于降雨量丰富的城乡输配电线路。能够解决电缆终端密封不严时,水份进入导体距离较长对架空电缆导线的氧化和腐蚀,绝缘有水树枝发生,绝缘品质下降的问题。
本实用新型的目的是通过以下技术方案来解决的:
这种额定电压20kV铝合金导体架空绝缘阻水电缆,包括阻水导体,在所述阻水导体的外层依次包裹有半导电内屏蔽层和黑色耐候交联聚乙烯层;所述阻水导体由铝合金单线与阻水材料填充绞制而成,导体从次外层至内层分别加入阻水材料。
上述阻水导体与半导电内屏蔽层、黑色耐候交联聚乙烯层之间接触紧密。
本实用新型额定电压20kV铝合金导体架空绝缘阻水电缆适用于降雨量丰富的城乡输配电线路。避免了电缆终端密封不严时,水份进入导体距离较长对架空电缆导线的氧化和腐蚀,绝缘有水树枝发生,绝缘品质下降的问题,提高架空绝缘线路的安全性,延长电缆的使用寿命。额定电压20kV铝合金导体架空绝缘阻水电缆同时具有抗拉强度好、电缆重量轻、传输容量大、损耗小、投资费用低等特点,可以降低城乡电网架空线路的敷设和维护成本。本产品的设计和使用,可以提高降雨量丰富地区的供电系统的安全性和可靠性,有明显的社会和经济效益。
附图说明
图1为本实用新型的电缆横截面结构示意图。
其中:1为阻水导体;2为半导电内屏蔽层;3为黑色耐候交联聚乙烯层。
具体实施方式
下面结合附图对本实用新型做进一步详细描述:
参见图1,本实用新型的额定电压20kV铝合金导体架空绝缘阻水电缆,包括阻水导体1,在所述阻水导体1的外层依次包裹有半导电内屏蔽层2和黑色耐候交联聚乙烯层3;阻水导体1由铝合金单线与阻水材料填充绞制而成,导体从次外层至内层分别加入阻水材料。为了使阻水材料均匀地填入各层的间隙中,同时必须保证各层间的导线导通,在设计和制造过程中,采用设计的加工工艺及模具,使导体的紧压紧密、均匀,很好地保证导体的阻水性能。为不降低铝合金拉断力,同时提高阻水性能,从次外层至内层采用紧压,但紧压系数较低,最外层铝线采用较大的紧压系数,提高导体紧压程度。
本实用新型的导体屏蔽使用半导电材料,绝缘使用黑色耐候交联聚乙烯,具有优良的绝缘电阻,工作温度高,耐环境开裂。在制造过程中,内屏蔽和绝缘层采用三层共挤的交联机组一次挤出,导体与内屏蔽、内屏蔽与绝缘层之间接触紧密,保证良好的绝缘电阻和电气性能,同时具有机械性能好,使用寿命长的特点。
Claims (2)
1.一种额定电压20kV铝合金导体架空绝缘阻水电缆,其特征在于,包括阻水导体(1),在所述阻水导体(1)的外层依次包裹有半导电内屏蔽层(2)和黑色耐候交联聚乙烯层(3);所述阻水导体(1)由铝合金单线与阻水材料填充绞制而成,导体从次外层至内层分别加入阻水材料。
2.根据权利要求1所述的额定电压20kV铝合金导体架空绝缘阻水电缆,其特征在于,所述阻水导体(1)与半导电内屏蔽层(2)、黑色耐候交联聚乙烯层(3)之间接触紧密。
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Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US9741467B2 (en) | 2014-08-05 | 2017-08-22 | General Cable Technologies Corporation | Fluoro copolymer coatings for overhead conductors |
| US9859038B2 (en) | 2012-08-10 | 2018-01-02 | General Cable Technologies Corporation | Surface modified overhead conductor |
| US10726975B2 (en) | 2015-07-21 | 2020-07-28 | General Cable Technologies Corporation | Electrical accessories for power transmission systems and methods for preparing such electrical accessories |
| US10957467B2 (en) | 2014-01-08 | 2021-03-23 | General Cable Technologies Corporation | Coated overhead conductor |
| US10957468B2 (en) | 2013-02-26 | 2021-03-23 | General Cable Technologies Corporation | Coated overhead conductors and methods |
| US11319455B2 (en) | 2015-11-13 | 2022-05-03 | General Cable Technologies Corporation | Cables coated with fluorocopolymer coatings |
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2012
- 2012-11-16 CN CN201220642309.7U patent/CN203038717U/zh not_active Expired - Fee Related
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US9859038B2 (en) | 2012-08-10 | 2018-01-02 | General Cable Technologies Corporation | Surface modified overhead conductor |
| US10586633B2 (en) | 2012-08-10 | 2020-03-10 | General Cable Technologies Corporation | Surface modified overhead conductor |
| US10957468B2 (en) | 2013-02-26 | 2021-03-23 | General Cable Technologies Corporation | Coated overhead conductors and methods |
| US10957467B2 (en) | 2014-01-08 | 2021-03-23 | General Cable Technologies Corporation | Coated overhead conductor |
| US9741467B2 (en) | 2014-08-05 | 2017-08-22 | General Cable Technologies Corporation | Fluoro copolymer coatings for overhead conductors |
| US10726975B2 (en) | 2015-07-21 | 2020-07-28 | General Cable Technologies Corporation | Electrical accessories for power transmission systems and methods for preparing such electrical accessories |
| US11319455B2 (en) | 2015-11-13 | 2022-05-03 | General Cable Technologies Corporation | Cables coated with fluorocopolymer coatings |
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