CN113639141A - 一种漏热率低的环保低碳可拆可塑保温组件 - Google Patents
一种漏热率低的环保低碳可拆可塑保温组件 Download PDFInfo
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Abstract
本发明公开了一种漏热率低的环保低碳可拆可塑保温组件,包括保温管件、连接垫和连接槽,所述保温管件上端设置有所述连接垫。有益效果在于:通过设置抗氧化层、耐腐蚀层二以及绝缘层的设计,能够使保温组件具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命,通过设置不锈钢丝网以及耐磨颗粒的设计,能够使保温组件具有耐磨能力,使保温组件在拆装过程中不会轻易发生磨损,从而确保保温组件的结构完整性,通过设置玻璃纤维毯、内硅酸铝纤维毯以及外硅酸铝纤维毯的设计,能够使保温组件具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能。
Description
技术领域
本发明涉及保温组件技术领域,具体涉及一种漏热率低的环保低碳可拆可塑保温组件。
背景技术
保温组件一般是指热系数小于或等于0.12的材料。在现代工业领域里,很多地方由于生产工艺和安全防护等原因,需要做保温。大多数地方,使用传统的保温棉加铝皮包裹就能实现保温功能,但也有很多地方,用传统保温手段的效果并不理想,有的用传统手段甚至根本无法实施。
现有的保温组件大多不具备耐候能力,导致保温组件在高温环境中长时间使用后,容易发生老化,从而造成保温组件的使用寿命较短,同时现有的保温组件不具备耐磨能力,导致保温组件在拆装过程中容易对其造成磨损,从而影响保温组件的结构完整性,再者现有的保温组件大多不具备多层保温结构,容易导致保温组件的漏热率较高,从而无法确保保温组件优异的保温性能,因此急需一种漏热率低的环保低碳可拆可塑保温组件来解决现有问题。
发明内容
本发明的目的就在于为了解决上述问题而提供一种漏热率低的环保低碳可拆可塑保温组件。
本发明通过以下技术方案来实现上述目的:
一种漏热率低的环保低碳可拆可塑保温组件,包括保温管件、连接垫和连接槽,所述保温管件上端设置有所述连接垫,所述连接垫外围壁上设置有凸块,所述保温管件下端内部设置有所述连接槽,所述连接槽与所述凸块相对应处设置有凹槽,所述保温管件由外到内依次设置有外保护层、保温层、内衬层以及耐磨层,所述外保护层由抗氧化层、耐腐蚀层以及绝缘层组成,所述保温层由玻璃纤维毯、内硅酸铝纤维毯以及外硅酸铝纤维毯组成,所述内衬层由膨体玻璃纤维布以及高硅氧玻璃纤维布组成,所述耐磨层内设置有不锈钢丝网,所述耐磨层内侧壁上设置有耐磨颗粒。
通过采用上述技术方案,所述抗氧化层、所述耐腐蚀层以及所述绝缘层的设计,能够使保温组件具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命,所述不锈钢丝网以及所述耐磨颗粒的设计,能够使保温组件具有耐磨能力,使保温组件在拆装过程中不会轻易发生磨损,从而确保保温组件的结构完整性,所述玻璃纤维毯、所述内硅酸铝纤维毯以及所述外硅酸铝纤维毯的设计,能够使保温组件具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能。
进一步的,所述连接垫成型于所述保温管件上,所述凸块成型于所述连接垫上。
通过采用上述技术方案,能够使所述保温管件的连接更加便捷。
进一步的,所述连接槽和所述凹槽均成型于所述保温管件上。
通过采用上述技术方案,能够使所述保温管件的连接更加稳固。
进一步的,所述外保护层与所述保温层缝制连接,所述保温层与所述内衬层缝制连接。
通过采用上述技术方案,能够使所述外保护层与所述保温层以及所述内衬层的结构连接更加稳固。
进一步的,所述内衬层与所述耐磨层缝制连接。
通过采用上述技术方案,能够使所述内衬层与所述耐磨层的结构连接更加稳固。
进一步的,所述抗氧化层与所述耐腐蚀层粘接,所述耐腐蚀层与所述绝缘层粘接。
通过采用上述技术方案,能够使保温组件具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命。
进一步的,所述玻璃纤维毯与所述内硅酸铝纤维毯以及外硅酸铝纤维毯均缝制连接。
通过采用上述技术方案,能够使保温组件具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能。
进一步的,所述膨体玻璃纤维布与所述高硅氧玻璃纤维布通过压合成型。
通过采用上述技术方案,能够有效增加保温组件的耐高温性能。
进一步的,所述不锈钢丝网成型于所述耐磨层上。
通过采用上述技术方案,能够使保温组件具有耐磨能力,使保温组件在拆装过程中不会轻易发生磨损,从而确保保温组件的结构完整性。
进一步的,所述耐磨颗粒成型于所述耐磨层上。
通过采用上述技术方案,能够使保温组件与工业管道的连接更加紧密。
具体工作原理为:在使用时,工作人员可将所述保温管件依次套在需要被保温的工业管道上,然后将所述连接垫与所述连接槽进行对接,使所述凸块可以与所述凹槽进行咬合,使所述保温管件的连接可以更加稳固,所述不锈钢丝网和所述耐磨颗粒能够使所述保温管件在进行拆装时不会轻易发生磨损,可以确保所述保温管件的结构完整性,所述外保护层由所述抗氧化层、所述耐腐蚀层以及所述绝缘层组成,能够使所述保温管件具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命,所述保温层由所述玻璃纤维毯、所述内硅酸铝纤维毯以及所述外硅酸铝纤维毯组成,能够使所述保温管件具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能,所述内衬层由所述膨体玻璃纤维布与所述高硅氧玻璃纤维布组成,能够有效增加所述保温管件的耐高温性能。
本发明的有益效果在于:
1、通过设置抗氧化层、耐腐蚀层二以及绝缘层的设计,能够使保温组件具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命;
2、通过设置不锈钢丝网以及耐磨颗粒的设计,能够使保温组件具有耐磨能力,使保温组件在拆装过程中不会轻易发生磨损,从而确保保温组件的结构完整性;
3、通过设置玻璃纤维毯、内硅酸铝纤维毯以及外硅酸铝纤维毯的设计,能够使保温组件具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能。
附图说明
图1是本发明所述一种漏热率低的环保低碳可拆可塑保温组件的主视图;
图2是本发明所述一种漏热率低的环保低碳可拆可塑保温组件的剖视图;
图3是本发明所述一种漏热率低的环保低碳可拆可塑保温组件中外保护的结构示意图;
图4是本发明所述一种漏热率低的环保低碳可拆可塑保温组件中保温层的结构示意图;
图5是本发明所述一种漏热率低的环保低碳可拆可塑保温组件中内衬层的结构示意图;
图6是本发明所述一种漏热率低的环保低碳可拆可塑保温组件中耐磨层的结构示意图。
附图标记说明如下:
1、保温管件;2、连接垫;3、凸块;4、连接槽;5、凹槽;6、外保护层;7、保温层;8、内衬层;9、耐磨层;10、抗氧化层;11、耐腐蚀层;12、绝缘层;13、玻璃纤维毯;14、内硅酸铝纤维毯;15、外硅酸铝纤维毯;16、膨体玻璃纤维布;17、高硅氧玻璃纤维布;18、不锈钢丝网;19、耐磨颗粒。
具体实施方式
下面结合附图对本发明作进一步说明:
如图1-图6所示,一种漏热率低的环保低碳可拆可塑保温组件,包括保温管件1、连接垫2和连接槽4,所述保温管件1上端设置有所述连接垫2,所述连接垫2外围壁上设置有凸块3,所述保温管件1下端内部设置有所述连接槽4,所述连接槽4与所述凸块3相对应处设置有凹槽5,所述保温管件1由外到内依次设置有外保护层6、保温层7、内衬层8以及耐磨层9,所述外保护层6由抗氧化层10、耐腐蚀层11以及绝缘层12组成,所述保温层7由玻璃纤维毯13、内硅酸铝纤维毯14以及外硅酸铝纤维毯15组成,所述内衬层8由膨体玻璃纤维布16以及高硅氧玻璃纤维布17组成,所述耐磨层9内设置有不锈钢丝网18,所述耐磨层9内侧壁上设置有耐磨颗粒19,通过所述抗氧化层10、所述耐腐蚀层11以及所述绝缘层12的设计,能够使保温组件具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命,通过所述不锈钢丝网18以及所述耐磨颗粒19的设计,能够使保温组件具有耐磨能力,使保温组件在拆装过程中不会轻易发生磨损,从而确保保温组件的结构完整性,通过所述玻璃纤维毯13、所述内硅酸铝纤维毯14以及所述外硅酸铝纤维毯15的设计,能够使保温组件具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能。
本实施例中,所述连接垫2成型于所述保温管件1上,所述凸块3成型于所述连接垫2上,能够使所述保温管件1的连接更加便捷。
本实施例中,所述连接槽4和所述凹槽5均成型于所述保温管件1上,能够使所述保温管件1的连接更加稳固。
本实施例中,所述外保护层6与所述保温层7缝制连接,所述保温层7与所述内衬层8缝制连接。能够使所述外保护层6与所述保温层7以及所述内衬层8的结构连接更加稳固。
本实施例中,所述内衬层8与所述耐磨层9缝制连接,能够使所述内衬层8与所述耐磨层9的结构连接更加稳固。
本实施例中,所述抗氧化层10与所述耐腐蚀层11粘接,所述耐腐蚀层11与所述绝缘层12粘接,能够使保温组件具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命。
本实施例中,所述玻璃纤维毯13与所述内硅酸铝纤维毯14以及外硅酸铝纤维毯15均缝制连接,能够使保温组件具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能。
本实施例中,所述膨体玻璃纤维布16与所述高硅氧玻璃纤维布17通过压合成型,能够有效增加保温组件的耐高温性能。
本实施例中,所述不锈钢丝网18成型于所述耐磨层9上,能够使保温组件具有耐磨能力,使保温组件在拆装过程中不会轻易发生磨损,从而确保保温组件的结构完整性。
本实施例中,所述耐磨颗粒19成型于所述耐磨层9上,能够使保温组件与工业管道的连接更加紧密。
具体工作原理为:在使用时,工作人员可将保温管件1依次套在需要被保温的工业管道上,然后将连接垫2与连接槽4进行对接,使凸块3可以与凹槽5进行咬合,使保温管件1的连接可以更加稳固,不锈钢丝网18和耐磨颗粒19能够使保温管件1在进行拆装时不会轻易发生磨损,可以确保保温管件1的结构完整性,外保护层6由抗氧化层10、耐腐蚀层11以及绝缘层12组成,能够使保温管件1具备耐候能力,使保温组件在高温环境中长时间使用后,不会轻易发生老化,从而提高保温组件的使用寿命,保温层7由玻璃纤维毯13、内硅酸铝纤维毯14以及外硅酸铝纤维毯15组成,能够使保温管件1具有多层保温结构,使保温组件的漏热率降低,从而可以确保保温组件优异的保温性能,内衬层8由膨体玻璃纤维布16与高硅氧玻璃纤维布17组成,能够有效增加保温管件1的耐高温性能。
以上显示和描述了本发明的基本原理、主要特征和优点。本行业的技术人员应该了解,本发明不受上述实施例的限制,上述实施例和说明书中描述的只是说明本发明的原理,在不脱离本发明精神和范围的前提下,本发明还会有各种变化和改进,这些变化和改进都落入要求保护的本发明范围内。
Claims (10)
1.一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:包括保温管件(1)、连接垫(2)和连接槽(4),所述保温管件(1)上端设置有所述连接垫(2),所述连接垫(2)外围壁上设置有凸块(3),所述保温管件(1)下端内部设置有所述连接槽(4),所述连接槽(4)与所述凸块(3)相对应处设置有凹槽(5),所述保温管件(1)由外到内依次设置有外保护层(6)、保温层(7)、内衬层(8)以及耐磨层(9),所述外保护层(6)由抗氧化层(10)、耐腐蚀层(11)以及绝缘层(12)组成,所述保温层(7)由玻璃纤维毯(13)、内硅酸铝纤维毯(14)以及外硅酸铝纤维毯(15)组成,所述内衬层(8)由膨体玻璃纤维布(16)以及高硅氧玻璃纤维布(17)组成,所述耐磨层(9)内设置有不锈钢丝网(18),所述耐磨层(9)内侧壁上设置有耐磨颗粒(19)。
2.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述连接垫(2)成型于所述保温管件(1)上,所述凸块(3)成型于所述连接垫(2)上。
3.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述连接槽(4)和所述凹槽(5)均成型于所述保温管件(1)上。
4.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述外保护层(6)与所述保温层(7)缝制连接,所述保温层(7)与所述内衬层(8)缝制连接。
5.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述内衬层(8)与所述耐磨层(9)缝制连接。
6.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述抗氧化层(10)与所述耐腐蚀层(11)粘接,所述耐腐蚀层(11)与所述绝缘层(12)粘接。
7.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述玻璃纤维毯(13)与所述内硅酸铝纤维毯(14)以及所述外硅酸铝纤维毯(15)均缝制连接。
8.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述膨体玻璃纤维布(16)与所述高硅氧玻璃纤维布(17)通过压合成型。
9.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述不锈钢丝网(18)成型于所述耐磨层(9)上。
10.根据权利要求1所述的一种漏热率低的环保低碳可拆可塑保温组件,其特征在于:所述耐磨颗粒(19)成型于所述耐磨层(9)上。
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