CN111452467A - 一种环氧少胶聚酯无纺布玻璃粉云母带 - Google Patents
一种环氧少胶聚酯无纺布玻璃粉云母带 Download PDFInfo
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Abstract
本发明公开了一种环氧少胶聚酯无纺布玻璃粉云母带,包括云母纸层、第一补强层、第二补强层、第一粘结层和第二粘结层;云母纸层的上面通过第一粘结层与第一补强层粘合,云母纸层的下面通过第二粘结层与第二补强层粘合;第一补强层的材质为无碱玻璃布,第二补强层的材质为含纳米级导热颗粒的高导热型聚酯无纺布;第一粘结层与第二粘结层的材质相同,第一粘结层的材质为改性环氧粘合剂、纳米级氧化铝和纳米级氮化硼的混合物。本发明的环氧少胶聚酯无纺布玻璃粉云母带实现主绝缘层整体导热系数的大幅提升,提高了电机线圈的整体绝缘性能。
Description
技术领域
本发明涉及云母带加工领域,特别涉及一种环氧少胶聚酯无纺布玻璃粉云母带。
背景技术
随着电机制造技术的发展,要求电机在有更高功率的同时,还要减小体积,则电机在运行时必然大量发热,主绝缘温升提高,这可能会导致产品的功率降低,使用寿命缩短及造成多种事故。电机的冷却方式分为两种:其一为直接冷却,是使用氢气或水等介质通过空心导体进行的,该方式散热效果好,对绝缘的导热性能要求不高,缺点是结构复杂,不便于维护,造价较高;其二为间接冷却,导体热量由绝缘层传出,使用空气对定子铁芯进行冷却,该方式具有结构简单、制造成本低、对用户来说运行维护方便、安全、可靠、事故率低等优点,缺点是散热效果较差,对绝缘的导热性能要求较高。
由于空冷电机的诸多优点,是目前主流的产品,其热量通常的传导过程为:铜线发出的热量通过热传导穿过主绝缘,传到铁芯,再由铁芯表面通过对流和辐射散到周围空气中,该热传递链中,主绝缘的导热能力是很明显的瓶颈。
提高主绝缘的导热能力主要有两种方法:1、减薄绝缘层厚度;2、采用导热系数更高的绝缘材料,但是由于需要保证基本的绝缘性能,目前云母带+VPI漆的绝缘结构的厚度不可能无限减薄。
亟需一种实现主绝缘层整体导热系数的大幅提升,提高电机线圈的整体绝缘性能,提高电气、耐电晕、耐电寿命,能够有效降低电机温度,提高发电机的单机容量和效率,大大降低了电机的尺寸,降低成本的环氧少胶聚酯无纺布玻璃粉云母带来解决上述技术问题。
发明内容
为了解决上述问题,本发明提供了一种环氧少胶聚酯无纺布玻璃粉云母带。本发明的环氧少胶聚酯无纺布玻璃粉云母带实现主绝缘层整体导热系数的大幅提升,提高了电机线圈的整体绝缘性能,提高了电气、耐电晕、耐电寿命,能够有效降低电机温度,提高了发电机的单机容量和效率,大大降低了电机的尺寸,降低了成本。
本发明是通过如下技术方案解决上述技术问题的:
本发明提供了一种环氧少胶聚酯无纺布玻璃粉云母带,包括云母纸层、第一补强层、第二补强层、第一粘结层和第二粘结层;所述云母纸层的上面通过所述第一粘结层与所述第一补强层粘合,所述云母纸层的下面通过所述第二粘结层与所述第二补强层粘合;所述第一补强层的材质为无碱玻璃布,所述第二补强层的材质为含纳米级导热颗粒的高导热型聚酯无纺布;所述第一粘结层与所述第二粘结层的材质相同,所述第一粘结层的材质为改性环氧粘合剂、纳米级氧化铝和纳米级氮化硼的混合物。
本发明中,所述云母纸层为所述环氧少胶聚酯无纺布玻璃粉云母带的基材层,通过与其他层级的协同配合共同实现本发明的环氧少胶聚酯无纺布玻璃粉云母带环氧少胶聚酯无纺布玻璃粉云母带的优异效果;所述云母纸层的材质为本领域常规的云母纸;
较佳地,所述云母纸层的材质为高导热大鳞片云母纸;
较佳地,所述云母纸层的厚度为0.05~0.1mm。
本发明中,所述第一补强层和所述第二补强层共同提高所述环氧少胶聚酯无纺布玻璃粉云母带的工艺性能,使电机特殊形状的部位,引线端部,鼻部等绕包或成为可能,提高了生产效率;所述改性环氧粘合剂为本领域常规;
较佳地,所述第一补强层的厚度为0.025~0.03mm;
较佳地,所述第二补强层的厚度为0.02~0.025mm;
较佳地,所述第二补强层的纳米级导热颗粒为纳米级氧化铝和纳米级氮化硼,所述第二补强层中的纳米级导热颗粒的质量为所述高导热型聚酯无纺布的质量的15~60%。
本发明中,所述第一粘结层和第二粘结层通过改性环氧粘合剂和纳米级氮化硼、纳米级氧化铝的共同作用,使云母带产生的热量更易散出,防止局部过热;
较佳地,所述第一粘结层中的纳米级氧化铝和纳米级氮化硼的质量总和为所述改性环氧粘合剂的质量的15~60%。
本发明适用于电动机、风力发电机线圈、引线和端部绕包绝缘。采用高导热大鳞片云母纸和高导热聚酯无纺布、无碱玻璃布补强使云母带具有更好的导热性、渗透性和介电强度,并适用于高速绕包;添加高导热材料在改性环氧胶粘剂中具有很高的粘接强度,高导热聚酯无纺布的补强进一步提高了导热率,使云母带产生的热量更易散出,防止局部过热,同时又与现有的绝缘浸渍树脂有较高的相溶性,使批量生产成为可能,实现了主绝缘层整体导热系数的大幅提升,提高了电机线圈的整体绝缘性能,提高了电气、耐电晕、耐电寿命。能够有效降低电机温度,提高发电机的单机容量和效率。
本发明中,通过上述五层结构的配合最终显著提升了产品的导热系数,行业中,普通电机用云母带的导热系数一般只有0.2w/(m.k)左右,本发明的产品的导热系数可以达到0.45~0.55w/(m.k),导热效果显著提升。
本发明的积极进步效果:本发明的环氧少胶聚酯无纺布玻璃粉云母带实现主绝缘层整体导热系数的大幅提升,提高了电机线圈的整体绝缘性能,提高了电气、耐电晕、耐电寿命,能够有效降低电机温度,提高了发电机的单机容量和效率,大大降低了电机的尺寸,降低了成本。
附图说明
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动性的前提下,还可以根据这些附图获得其他的附图。
图1为本发明实施例的环氧少胶聚酯无纺布玻璃粉云母带的结构示意图。
附图标记说明:
1、第一补强层;
2、第一粘结层;
3、云母纸层;
4、第二粘结层;
5、第二补强层。
具体实施方式
下面结合附图和实施例,对本发明的具体实施方式作进一步描述。以下实施例仅用于更加清楚地说明本发明的技术方案,而不能以此来限制本发明的保护范围。
如图1所示,本实施例提供了一种环氧少胶聚酯无纺布玻璃粉云母带,包括云母纸层3、第一补强层1、第二补强层5、第一粘结层2和第二粘结层4;云母纸层3的上面通过第一粘结层2与第一补强层1粘合,云母纸层3的下面通过第二粘结层4与第二补强层5粘合;第一补强层1的材质为无碱玻璃布,第二补强层5的材质为含纳米级导热颗粒的高导热型聚酯无纺布;第一粘结层2与第二粘结层4的材质相同,第一粘结层2的材质为改性环氧粘合剂、纳米级氧化铝和纳米级氮化硼的混合物。
本实施例中,云母纸层3为环氧少胶聚酯无纺布玻璃粉云母带的基材层,通过与其他层级的协同配合共同实现本实施例的环氧少胶聚酯无纺布玻璃粉云母带环氧少胶聚酯无纺布玻璃粉云母带的优异效果;云母纸层3的材质为高导热大鳞片云母纸;云母纸层3的厚度为0.06mm。
本实施例中,第一补强层1和第二补强层5共同提高环氧少胶聚酯无纺布玻璃粉云母带的工艺性能,使电机特殊形状的部位,引线端部,鼻部等绕包或成为可能,提高了生产效率;第一补强层1的厚度为0.026mm;第二补强层5的厚度为0.023mm;第二补强层5的纳米级导热颗粒为纳米级氧化铝和纳米级氮化硼,第二补强层5中的纳米级导热颗粒的质量为高导热型聚酯无纺布的质量的21%。
本实施例中,第一粘结层2和第二粘结层4通过改性环氧粘合剂和纳米级氮化硼、纳米级氧化铝的共同作用,使云母带产生的热量更易散出,防止局部过热;第一粘结层2中的纳米级氧化铝和纳米级氮化硼的质量总和为改性环氧粘合剂的质量的20%。
本实施例的环氧少胶聚酯无纺布玻璃粉云母带适用于电动机、风力发电机线圈、引线和端部绕包绝缘。采用高导热大鳞片云母纸和高导热聚酯无纺布、无碱玻璃布补强使云母带具有更好的导热性、渗透性和介电强度,并适用于高速绕包;添加高导热材料在改性环氧胶粘剂中具有很高的粘接强度,高导热聚酯无纺布的补强进一步提高了导热率,使云母带产生的热量更易散出,防止局部过热,同时又与现有的绝缘浸渍树脂有较高的相溶性,使批量生产成为可能,实现了主绝缘层整体导热系数的大幅提升,提高了电机线圈的整体绝缘性能,提高了电气、耐电晕、耐电寿命,能够有效降低电机温度,提高发电机的单机容量和效率。
本实施例中,通过上述五层结构的配合最终显著提升了产品的导热系数,行业中,普通电机用云母带的导热系数一般只有0.2w/(m.k)左右,本实施例的产品的导热系数可以达到0.45~0.55w/(m.k),导热效果显著提升。
本实施例的环氧少胶聚酯无纺布玻璃粉云母带实现主绝缘层整体导热系数的大幅提升,提高了电机线圈的整体绝缘性能,提高了电气、耐电晕、耐电寿命,能够有效降低电机温度,提高了发电机的单机容量和效率,大大降低了电机的尺寸,降低了成本。
以上所述仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
Claims (7)
1.一种环氧少胶聚酯无纺布玻璃粉云母带,其特征在于,所述环氧少胶聚酯无纺布玻璃粉云母带包括云母纸层、第一补强层、第二补强层、第一粘结层和第二粘结层;所述云母纸层的上面通过所述第一粘结层与所述第一补强层粘合,所述云母纸层的下面通过所述第二粘结层与所述第二补强层粘合;所述第一补强层的材质为无碱玻璃布,所述第二补强层的材质为含纳米级导热颗粒的高导热型聚酯无纺布;所述第一粘结层与所述第二粘结层的材质相同,所述第一粘结层的材质为改性环氧粘合剂、纳米级氧化铝和纳米级氮化硼的混合物。
2.如权利要求1所述的环氧少胶聚酯无纺布玻璃粉云母带,其特征在于,所述云母纸层的材质为高导热大鳞片云母纸。
3.如权利要求1所述的环氧少胶聚酯无纺布玻璃粉云母带,其特征在于,所述云母纸层的厚度为0.05~0.1mm。
4.如权利要求1所述的环氧少胶聚酯无纺布玻璃粉云母带,其特征在于,所述第一补强层的厚度为0.025~0.03mm。
5.如权利要求1所述的环氧少胶聚酯无纺布玻璃粉云母带,其特征在于,所述第二补强层的厚度为0.02~0.025mm。
6.如权利要求1所述的环氧少胶聚酯无纺布玻璃粉云母带,其特征在于,所述第二补强层的纳米级导热颗粒为纳米级氧化铝和纳米级氮化硼,所述第二补强层中的纳米级导热颗粒的质量为所述高导热型聚酯无纺布的质量的15~60%。
7.如权利要求1所述的环氧少胶聚酯无纺布玻璃粉云母带,其特征在于,所述第一粘结层中的纳米级氧化铝和纳米级氮化硼的质量总和为所述改性环氧粘合剂的质量的15~60%。
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