CN112318946B - 一种热力资源输送管道用保温装置 - Google Patents
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Abstract
本发明提供一种热力资源输送管道用保温装置,包括热力管,所述热力管侧面的外表面滑动连接有酚醛泡沫保温层,所述酚醛泡沫保温层的侧面开设有固定凹槽;本发明通过酚醛泡沫保温层和固定凹槽共同连接于热力管,使得热力管对酚醛泡沫保温层的挤压力被固定凹槽缓解,从而实现了避免酚醛泡沫保温层在安装时被胀破的功能,同时通过固定凹槽增大热力管和酚醛泡沫保温层两者之间的摩擦力,实现了避免热力管和酚醛泡沫保温层因摩擦导致损耗的功能,然后通过固定凹槽和连接块共同作用,实现了紧密连接酚醛泡沫保温层和橡胶保温层而避免两者磨损的功能,极大的提高了实用性。
Description
技术领域
本发明涉及热力管道技术领域,尤其涉及一种热力资源输送管道用保温装置。
背景技术
热力是指可提供热源的热水、过热或饱和蒸汽;包括工业锅炉、公用热电站和企业自备电站生产的热水和蒸汽,使用单位的热水和蒸汽,多个供热管道形成管网。现有的热力资源输送管道用保温装置存在如下弊端:通过保温层套接于热力管的外侧,容易滑动保温层,造成保温层的磨损。
因此,有必要提供一种新的热力资源输送管道用保温装置解决上述技术问题。
发明内容
本发明解决的技术问题是提供一种能够牢固连接于热力管,减低其自身磨损而保障其保温效果的热力资源输送管道用保温装置。
为解决上述技术问题,本发明提供的一种热力资源输送管道用保温装置包括:热力管,所述热力管侧面的外表面滑动连接有酚醛泡沫保温层,所述酚醛泡沫保温层的侧面开设有固定凹槽,所述酚醛泡沫保温层侧面的外表面滑动连接有橡胶保温层,所述橡胶保温层靠近所述酚醛泡沫保温层的一侧固定安装有连接块,所述橡胶保温层侧面的外表面固定连接有减压层,所述减压层的内部开设有安装腔,所述减压层侧面的外表面固定连接有防腐层。
优选的,为了便于工作人员通过所述酚醛泡沫保温层能够保存所述热力管的温度,所述热力管的中轴线和所述酚醛泡沫保温层的中轴线重合,所述固定凹槽均匀分布在所述酚醛泡沫保温层的侧面,所述固定凹槽为“T形”立方体,使得所述酚醛泡沫保温层能够紧贴所述热力管。
优选的,为了便于工作人员通过所述橡胶保温层避免所述酚醛泡沫保温层中的温度进一步流失,所述橡胶保温层的中轴线和所述酚醛泡沫保温层的中轴线重合,所述橡胶保温层的内壁紧密贴合于所述酚醛泡沫保温层侧面的外表面,使得所述酚醛泡沫保温层和所述橡胶保温层两者之间的摩擦力增大。
优选的,为了便于工作人员通过所述连接块方便所述酚醛泡沫保温层和所述橡胶保温层两者连接,所述连接块的侧面滑动连接于所述固定凹槽,所述连接块均匀分布在所述橡胶保温层侧面的内表面,一个所述连接块和一个所述固定凹槽为一组,使得所述连接块和所述固定凹槽两者能够咬合。
优选的,为了便于工作人员通过所述减压层缓解外界压力,所述减压层的中轴线和所述橡胶保温层的中轴线重合,所述减压层的内壁紧密贴合于所述橡胶保温层侧面的外表面。
优选的,为了便于工作人员通过所述安装腔自身的形变能够进一步缓解所述减压层受到的压力,所述安装腔平行于所述热力管,所述安装腔均匀分布在所述减压层的内部,所述安装腔为立方体结构,所述安装腔用于盛放膨胀玻化微珠,使得工作人员通过所述减压层能够进一步减缓所述热力管内部热量的流失。
优选的,为了便于工作人员通过所述防腐层能够避免所述热力管、所述酚醛泡沫保温层、所述固定凹槽、所述橡胶保温层、所述连接块、所述减压层和所述安装腔被腐蚀,所述防腐层的中轴线和所述减压层的中轴线重合,所述防腐层的内壁紧密贴合于所述减压层侧面的外表面,避免所述防腐层意外脱离所述减压层。
与相关技术相比较,本发明提供的一种热力资源输送管道用保温装置具有如下有益效果:
(1)本发明提供有酚醛泡沫保温层、固定凹槽、橡胶保温层和连接块的热力管,通过酚醛泡沫保温层和固定凹槽共同连接于热力管,使得热力管对酚醛泡沫保温层的挤压力被固定凹槽缓解,从而实现了避免酚醛泡沫保温层在安装时被胀破的功能,同时通过固定凹槽增大热力管和酚醛泡沫保温层两者之间的摩擦力,实现了避免热力管和酚醛泡沫保温层因摩擦导致损耗的功能,然后通过固定凹槽和连接块共同作用,实现了紧密连接酚醛泡沫保温层和橡胶保温层而避免两者磨损的功能,极大的提高了实用性。
(2)本发明提供有减压层和安装腔的热力管,通过安装腔均匀分布在减压层的特殊结构作用,使得减压层受到外界的压力能够通过安装腔的形变进一步得到缓解,从而避免热力管、酚醛泡沫保温层、固定凹槽、橡胶保温层和连接块被外界压力损坏,实现了提高减压层减压效果的功能,同时通过安装腔盛放膨胀玻化微珠,使得橡胶保温层传导给减压层的热量进一步得到保存,极大的提高了实用性。
附图说明
图1为本发明提供的一种较佳实施例的结构示意图;
图2为本发明的俯视图;
图3为本发明的侧视剖面图;
图4为本发明的A部的剖面图。
图中标号:1、热力管;2、酚醛泡沫保温层;3、固定凹槽;4、橡胶保温层;5、连接块;6、减压层;7、安装腔;8、防腐层。
具体实施方式
下面结合附图和实施方式对本发明作进一步说明。
请结合参阅图1、图2、图3和图4,其中,图1为本发明提供的一种较佳实施例的结构示意图;图2为本发明的俯视图;图3为本发明的侧视剖面图;图4为本发明的A部的剖面图。包括:热力管1,热力管1侧面的外表面滑动连接有酚醛泡沫保温层2,酚醛泡沫保温层2的侧面开设有固定凹槽3,酚醛泡沫保温层2侧面的外表面滑动连接有橡胶保温层4,橡胶保温层4靠近酚醛泡沫保温层2的一侧固定安装有连接块5,橡胶保温层4侧面的外表面固定连接有减压层6,减压层6的内部开设有安装腔7,减压层6侧面的外表面固定连接有防腐层8。
在具体实施过程中,如图1、图2和图3所示,为了便于工作人员通过酚醛泡沫保温层2能够保存热力管1的温度,热力管1的中轴线和酚醛泡沫保温层2的中轴线重合,固定凹槽3均匀分布在酚醛泡沫保温层2的侧面,固定凹槽3为“T形”立方体,使得酚醛泡沫保温层2能够紧贴热力管1,为了便于工作人员通过橡胶保温层4避免酚醛泡沫保温层2中的温度进一步流失,橡胶保温层4的中轴线和酚醛泡沫保温层2的中轴线重合,橡胶保温层4的内壁紧密贴合于酚醛泡沫保温层2侧面的外表面,使得酚醛泡沫保温层2和橡胶保温层4两者之间的摩擦力增大,为了便于工作人员通过连接块5方便酚醛泡沫保温层2和橡胶保温层4两者连接,连接块5的侧面滑动连接于固定凹槽3,连接块5均匀分布在橡胶保温层4侧面的内表面,一个连接块5和一个固定凹槽3为一组,使得连接块5和固定凹槽3两者能够咬合。
参考图4所示,为了便于工作人员通过减压层6缓解外界压力,减压层6的中轴线和橡胶保温层4的中轴线重合,减压层6的内壁紧密贴合于橡胶保温层4侧面的外表面,为了便于工作人员通过安装腔7自身的形变能够进一步缓解减压层6受到的压力,安装腔7平行于热力管1,安装腔7均匀分布在减压层6的内部,安装腔7为立方体结构,安装腔7用于盛放膨胀玻化微珠,使得工作人员通过减压层6能够进一步减缓热力管1内部热量的流失,为了便于工作人员通过防腐层8能够避免热力管1、酚醛泡沫保温层2、固定凹槽3、橡胶保温层4、连接块5、减压层6和安装腔7被腐蚀,防腐层8的中轴线和减压层6的中轴线重合,防腐层8的内壁紧密贴合于减压层6侧面的外表面,避免防腐层8意外脱离减压层6。
本发明提供的工作原理如下:
在使用时,工作人员将酚醛泡沫保温层2缓慢套上热力管1,同时工作人员通过酚醛泡沫保温层2侧面的固定凹槽3挤压热力管1,使得酚醛泡沫保温层2自身的应力改变固定凹槽3的形状,从而避免酚醛泡沫保温层2在安装时被胀破,而且固定凹槽3能够增大热力管1和酚醛泡沫保温层2两者之间的摩擦力,避免酚醛泡沫保温层2因扭曲变形而导致的破裂,然后热力管1中的温度经酚醛泡沫保温层2传导到橡胶保温层4中,工作人员通过橡胶保温层4一侧的连接块5配合固定凹槽3,使得橡胶保温层4能够牢固连接于酚醛泡沫保温层2,从而避免酚醛泡沫保温层2和橡胶保温层4两者之间因摩擦而导致破损,然后橡胶保温层4中的温度传导到减压层6中,工作人员通过减压层6中的安装腔7填充膨胀玻化微珠,使得热力管1散发的温度能够进一步得到保存,从而避免热力管1运输的热力被浪费,同时通过安装腔7均匀分布在减压层6内部的特殊结构作用,使得减压层6受到的压力可以通过安装腔7的形变来缓解,从而避免酚醛泡沫保温层2和橡胶保温层4两者被挤压损坏,然后工作人员通过防腐层8保护热力管1、酚醛泡沫保温层2、橡胶保温层4和减压层6,避免降雨等酸碱性环境腐蚀损坏热力管1、酚醛泡沫保温层2、橡胶保温层4和减压层6。
与相关技术相比较,本发明提供一种热力资源输送管道用保温装置具有如下有益效果:
本发明提供有酚醛泡沫保温层2、固定凹槽3、橡胶保温层4和连接块5的热力管1,通过酚醛泡沫保温层2和固定凹槽3共同连接于热力管1,使得热力管1对酚醛泡沫保温层2的挤压力被固定凹槽3缓解,从而实现了避免酚醛泡沫保温层2在安装时被胀破的功能,同时通过固定凹槽3增大热力管1和酚醛泡沫保温层2两者之间的摩擦力,实现了避免热力管1和酚醛泡沫保温层2因摩擦导致损耗的功能,然后通过固定凹槽3和连接块5共同作用,实现了紧密连接酚醛泡沫保温层2和橡胶保温层4而避免两者磨损的功能,极大的提高了实用性;本发明提供有减压层6和安装腔7的热力管1,通过安装腔7均匀分布在减压层6的特殊结构作用,使得减压层6受到外界的压力能够通过安装腔7的形变进一步得到缓解,从而避免热力管1、酚醛泡沫保温层2、固定凹槽3、橡胶保温层4和连接块5被外界压力损坏,实现了提高减压层6减压效果的功能,同时通过安装腔7盛放膨胀玻化微珠,使得橡胶保温层4传导给减压层6的热量进一步得到保存,极大的提高了实用性。
以上所述仅为本发明的实施例,并非因此限制本发明的专利范围,凡是利用本发明说明书及附图内容所作的等效结构或等效流程变换,或直接或间接运用在其它相关的技术领域,均同理包括在本发明的专利保护范围内。
Claims (1)
1.一种热力资源输送管道用保温装置,包括热力管(1),其特征在于:所述热力管(1)侧面的外表面滑动连接有酚醛泡沫保温层(2),所述酚醛泡沫保温层(2)的侧面开设有固定凹槽(3),所述酚醛泡沫保温层(2)侧面的外表面滑动连接有橡胶保温层(4),所述橡胶保温层(4)靠近所述酚醛泡沫保温层(2)的一侧固定安装有连接块(5),所述橡胶保温层(4)侧面的外表面固定连接有减压层(6),所述减压层(6)的内部开设有安装腔(7),所述减压层(6)侧面的外表面固定连接有防腐层(8);
所述热力管(1)的中轴线和所述酚醛泡沫保温层(2)的中轴线重合,所述固定凹槽(3)均匀分布在所述酚醛泡沫保温层(2)的侧面,所述固定凹槽(3)为“T形”立方体;
所述橡胶保温层(4)的中轴线和所述酚醛泡沫保温层(2)的中轴线重合,所述橡胶保温层(4)的内壁紧密贴合于所述酚醛泡沫保温层(2)侧面的外表面;
所述连接块(5)的侧面滑动连接于所述固定凹槽(3),所述连接块(5)均匀分布在所述橡胶保温层(4)侧面的内表面,一个所述连接块(5)和一个所述固定凹槽(3)为一组;
所述减压层(6)的中轴线和所述橡胶保温层(4)的中轴线重合,所述减压层(6)的内壁紧密贴合于所述橡胶保温层(4)侧面的外表面;
所述安装腔(7)平行于所述热力管(1),所述安装腔(7)均匀分布在所述减压层(6)的内部,所述安装腔(7)为立方体结构,所述安装腔(7)用于盛放膨胀玻化微珠;
所述防腐层(8)的中轴线和所述减压层(6)的中轴线重合,所述防腐层(8)的内壁紧密贴合于所述减压层(6)侧面的外表面;
通过酚醛泡沫保温层(2)和固定凹槽(3)共同连接于热力管(1),使得热力管(1)对酚醛泡沫保温层(2)的挤压力被固定凹槽(3)缓解,通过安装腔(7)均匀分布在减压层(6),使得减压层(6)受到外界的压力能够通过安装腔(7)的形变进一步得到缓解。
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