CN111485636A - 一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法 - Google Patents
一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法 Download PDFInfo
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Abstract
本发明公开了一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,包括墙体,所述墙体上设置有装配件、大理石瓷砖和填充层,所述装配件通过锚栓构件与所述墙体右表面的上方和下方相连接,所述大理石瓷砖均匀的粘贴在所述墙体的右表面,所述填充层位于所述墙体和大理石瓷砖的缝隙处。本发明实现了墙体、保温层和饰面层一体化;该发明使整体保温系统具有不燃烧(聚氨酯发泡颗粒保温浇筑料的燃烧性能达到A2级)、不开裂、无空腔、不渗水、结构牢固、长期高效节能、外饰面高档时尚,真正实现了“高效节能,安全耐久”让用户无后顾之忧的理想目标。
Description
技术领域
本发明涉及建筑工程技术领域,具体为一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法。
背景技术
聚氨酯材料是一类性能优良的新型多功能高分子材料,在材料工业中占有十分重要的地位,是世界六大合成材料之一。高分子聚氨酯材料应用范围随着工业的发展越来越广泛,各行业对聚氨酯材料的机械性能也提出了更高的要求。所谓的“发泡材料”通常是指通过使用“发泡”的膨胀方法产生泡孔结构,并且具备较低的密度的材料。但是,对于某些应用,比如用于屋顶和壁板夹层的复合材料,模型制造材料和包装材料等,这类材料可能缺乏所需的机械性能。目前,聚氨酯材料硬度不够,耐磨性能偏低已成为本领域普遍存在的一个问题。亟需一种耐磨、硬质、机械性能好的聚氨酯材料来满足工业生产的。
目前,现有的建筑工程的外墙外保温系统还存在着一些不足的地方,例如;现有建筑工程的外墙外保温系统存在易燃烧、易开裂、易渗水、结构不牢固、保温效果差、使用寿命短、外饰面易开裂、褪色、脱落等痛点问题。
发明内容
本发明的目的在于提供一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,解决了背景技术中所提出的问题。
为实现上述目的,本发明提供如下技术方案:一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,包括墙体,所述墙体上设置有装配件、大理石瓷砖和填充层,所述装配件通过锚栓构件与所述墙体右表面的上方和下方相连接,所述大理石瓷砖均匀的粘贴在所述墙体的右表面,所述填充层位于所述墙体和大理石瓷砖的缝隙处。
作为本发明的一种优选实施方式,所述装配件分别将所述墙体上方的大理石瓷砖和墙体下方的大理石瓷砖边缘处包裹在其内部。
作为本发明的一种优选实施方式,所述填充层采用聚氨酯发泡颗粒制作,所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为15—25份;聚醚多元醇质量为30—40份;聚合物多元醇质量为5—15份;一氟三氯甲烷质量为10—20份;三聚氰胺质量为3—5份;三乙醇胺质量为2—4份;有机锡质量为1—3份;醋酸钾质量为1—2份;三乙稀二质量为2—3份;多苯基多亚甲基多异豪酸酯质量为25—35份;硅烷偶联剂质量为5—10份。
作为本发明的一种优选实施方式,所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为20份;聚醚多元醇质量为35份;聚合物多元醇质量为13份;一氟三氯甲烷质量为15份;三聚氰胺质量为4份;三乙醇胺质量为3份;有机锡质量为2份;醋酸钾质量为2份;三乙稀二质量为3份;多苯基多亚甲基多异豪酸酯质量为30份;硅烷偶联剂质量为7份。
作为本发明的一种优选实施方式,所述聚氨酯发泡颗粒制备步骤如下:
a.将上述原料按照重量份数称取;
b.待步骤a完成后,再将选用好的原料放入到混合器中进行混合,混合时的温度为35—45度,混合时间为15—20min,混合时的速度800—1000r/min;
c.待步骤b完成后,再将混合后的原料放置到发泡喷涂机中进行喷出雾状颗粒;经发泡固化后;形成φ1mm~10mm颗粒,堆积密度应控制在30kg~45kg/m3。
作为本发明的一种优选实施方式,所述步骤c中发泡喷涂机进行喷出时,喷出的流量为6kg~8kg/min,喷出的角度为向上或斜向上喷出,喷出雾状颗粒的大小通过气压压力调节,喷枪的气压应控制在1.5~4MPa,喷料口距离地面的垂直高度应不小于40m。
作为本发明的一种优选实施方式,所述填充层形成的步骤:
S1.首先将大理石瓷砖均匀的装配在墙体上,然后再将墙体的下方的装配件通过锚栓构件安装到墙体上;
S2.再将聚氨酯发泡颗粒倒入到浇筑机中,再由浇筑机向墙体和大理石瓷砖的缝隙处进行填充,待浇筑料固化后,形成填充层。
与现有技术相比,本发明的有益效果如下:
本发明实现了墙体、保温层和饰面层一体化;该发明使整体保温系统具有不燃烧(聚氨酯发泡颗粒保温浇筑料的燃烧性能达到A2级)、不开裂、无空腔、不渗水、结构牢固、长期高效节能、外饰面高档时尚,真正实现了“高效节能,安全耐久”让用户无后顾之忧的理想目标。
附图说明
通过阅读参照以下附图对非限制性实施例所作的详细描述,本发明的其它特征、目的和优点将会变得更明显:
图1为本发明一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法的剖视图。
图中:墙体1、装配件2、大理石瓷砖3、填充层4。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。
请参阅图1,本发明提供一种技术方案:一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,包括墙体1,所述墙体1上设置有装配件2、大理石瓷砖3和填充层4,所述装配件2通过锚栓构件与所述墙体1右表面的上方和下方相连接,所述大理石瓷砖3均匀的粘贴在所述墙体1的右表面,所述填充层4位于所述墙体1和大理石瓷砖3的缝隙处。
进一步,所述装配件2分别将所述墙体1上方的大理石瓷砖3和墙体1下方的大理石瓷砖3边缘处包裹在其内部。
进一步,所述填充层4采用聚氨酯发泡颗粒制作,所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为15—25份;聚醚多元醇质量为30—40份;聚合物多元醇质量为5—15份;一氟三氯甲烷质量为10—20份;三聚氰胺质量为3—5份;三乙醇胺质量为2—4份;有机锡质量为1—3份;醋酸钾质量为1—2份;三乙稀二质量为2—3份;多苯基多亚甲基多异豪酸酯质量为25—35份;硅烷偶联剂质量为5—10份。
进一步,所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为20份;聚醚多元醇质量为35份;聚合物多元醇质量为13份;一氟三氯甲烷质量为15份;三聚氰胺质量为4份;三乙醇胺质量为3份;有机锡质量为2份;醋酸钾质量为2份;三乙稀二质量为3份;多苯基多亚甲基多异豪酸酯质量为30份;硅烷偶联剂质量为7份。
进一步,所述聚氨酯发泡颗粒制备步骤如下:
a.将上述原料按照重量份数称取;
b.待步骤a完成后,再将选用好的原料放入到混合器中进行混合,混合时的温度为35—45度,混合时间为15—20min,混合时的速度800—1000r/min;
c.待步骤b完成后,再将混合后的原料放置到发泡喷涂机中进行喷出雾状颗粒;经发泡固化后;形成φ1mm~10mm颗粒,堆积密度应控制在30kg~45kg/m3。
进一步,所述步骤c中发泡喷涂机进行喷出时,喷出的流量为6kg~8kg/min,喷出的角度为向上或斜向上喷出,喷出雾状颗粒的大小通过气压压力调节,喷枪的气压应控制在1.5~4MPa,喷料口距离地面的垂直高度应不小于40m。
进一步,所述填充层4形成的步骤:
S1.首先将大理石瓷砖3均匀的装配在墙体1上,然后再将墙体1的下方的装配件2通过锚栓构件安装到墙体1上;
S2.再将聚氨酯发泡颗粒倒入到浇筑机中,再由浇筑机向墙体1和大理石瓷砖3的缝隙处进行填充,待浇筑料固化后,形成填充层4。
实施例一
所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为15—25份;聚醚多元醇质量为30—40份;聚合物多元醇质量为5—15份;一氟三氯甲烷质量为10—20份;三聚氰胺质量为3—5份;三乙醇胺质量为2—4份;有机锡质量为1—3份;醋酸钾质量为1—2份;三乙稀二质量为2—3份;多苯基多亚甲基多异豪酸酯质量为25—35份;硅烷偶联剂质量为5—10份。
所述聚氨酯发泡颗粒制备步骤如下:
a.将上述原料按照重量份数称取;
b.待步骤a完成后,再将选用好的原料放入到混合器中进行混合,混合时的温度为35—45度,混合时间为15—20min,混合时的速度800—1000r/min;
c.待步骤b完成后,再将混合后的原料放置到发泡喷涂机中进行喷出雾状颗粒;经发泡固化后;形成φ1mm~10mm颗粒,堆积密度应控制在30kg~45kg/m3。
实施例二
所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为20份;聚醚多元醇质量为35份;聚合物多元醇质量为13份;一氟三氯甲烷质量为15份;三聚氰胺质量为4份;三乙醇胺质量为3份;有机锡质量为2份;醋酸钾质量为2份;三乙稀二质量为3份;多苯基多亚甲基多异豪酸酯质量为30份;硅烷偶联剂质量为7份。
所述聚氨酯发泡颗粒制备步骤如下:
a.将上述原料按照重量份数称取;
b.待步骤a完成后,再将选用好的原料放入到混合器中进行混合,混合时的温度为35—45度,混合时间为15—20min,混合时的速度800—1000r/min;
c.待步骤b完成后,再将混合后的原料放置到发泡喷涂机中进行喷出雾状颗粒;经发泡固化后;形成φ1mm~10mm颗粒,堆积密度应控制在30kg~45kg/m3。
传统外墙外保温系统数据参数表1如下:
测试项目 | 耐压性 | 保温效果 | 使用寿命 | 结构牢固性 |
参数指标 | 较弱 | 一般 | 较短 | 较差 |
实施例一外墙外保温系统数据参数表2如下:
测试项目 | 耐压性 | 保温效果 | 使用寿命 | 结构牢固性 |
参数指标 | 一般 | 良好 | 一般 | 良好 |
实施例二外墙外保温系统数据参数表3如下:
测试项目 | 耐压性 | 保温效果 | 使用寿命 | 结构牢固性 |
参数指标 | 强 | 优 | 长 | 强 |
综上述,参照表1、表2和表3的数据对比得到,实现了墙体、保温层和饰面层一体化;该发明使整体保温系统具有不燃烧(聚氨酯发泡颗粒保温浇筑料的燃烧性能达到A2级)、不开裂、无空腔、不渗水、结构牢固、长期高效节能、外饰面高档时尚,真正实现了“高效节能,安全耐久”让用户无后顾之忧的理想目标。
以上显示和描述了本发明的基本原理和主要特征和本发明的优点,对于本领域技术人员而言,显然本发明不限于上述示范性实施例的细节,而且在不背离本发明的精神或基本特征的情况下,能够以其他的具体形式实现本发明。因此,无论从哪一点来看,均应将实施例看作是示范性的,而且是非限制性的,本发明的范围由所附权利要求而不是上述说明限定,因此旨在将落在权利要求的等同要件的含义和范围内的所有变化囊括在本发明内。不应将权利要求中的任何附图标记视为限制所涉及的权利要求。
此外,应当理解,虽然本说明书按照实施方式加以描述,但并非每个实施方式仅包含一个独立的技术方案,说明书的这种叙述方式仅仅是为清楚起见,本领域技术人员应当将说明书作为一个整体,各实施例中的技术方案也可以经适当组合,形成本领域技术人员可以理解的其他实施方式。
Claims (7)
1.一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,包括墙体(1),其特征在于:所述墙体(1)上设置有装配件(2)、大理石瓷砖(3)和填充层(4),所述装配件(2)通过锚栓构件与所述墙体(1)右表面的上方和下方相连接,所述大理石瓷砖(3)均匀的粘贴在所述墙体(1)的右表面,所述填充层(4)位于所述墙体(1)和大理石瓷砖(3)的缝隙处。
2.根据权利要求1所述的一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,其特征在于:所述装配件(2)分别将所述墙体(1)上方的大理石瓷砖(3)和墙体(1)下方的大理石瓷砖(3)边缘处包裹在其内部。
3.根据权利要求1所述的一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,其特征在于:所述填充层(4)采用聚氨酯发泡颗粒制作,所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为15—25份;聚醚多元醇质量为30—40份;聚合物多元醇质量为5—15份;一氟三氯甲烷质量为10—20份;三聚氰胺质量为3—5份;三乙醇胺质量为2—4份;有机锡质量为1—3份;醋酸钾质量为1—2份;三乙稀二质量为2—3份;多苯基多亚甲基多异豪酸酯质量为25—35份;硅烷偶联剂质量为5—10份。
4.根据权利要求1所述的一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,其特征在于:所述聚氨酯发泡颗粒包括以下原料及其重量分数:聚氧化丁烯多元醇质量为20份;聚醚多元醇质量为35份;聚合物多元醇质量为13份;一氟三氯甲烷质量为15份;三聚氰胺质量为4份;三乙醇胺质量为3份;有机锡质量为2份;醋酸钾质量为2份;三乙稀二质量为3份;多苯基多亚甲基多异豪酸酯质量为30份;硅烷偶联剂质量为7份。
5.根据权利要求3所述的一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,其特征在于:所述聚氨酯发泡颗粒制备步骤如下:
a.将上述原料按照重量份数称取;
b.待步骤a完成后,再将选用好的原料放入到混合器中进行混合,混合时的温度为35—45度,混合时间为15—20min,混合时的速度800—1000r/min;
c.待步骤b完成后,再将混合后的原料放置到发泡喷涂机中进行喷出雾状颗粒;经发泡固化后;形成φ1mm~10mm颗粒,堆积密度应控制在30kg~45kg/m3。
6.根据权利要求5所述的一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,其特征在于:所述步骤c中发泡喷涂机进行喷出时,喷出的流量为6kg~8kg/min,喷出的角度为向上或斜向上喷出,喷出雾状颗粒的大小通过气压压力调节,喷枪的气压应控制在1.5~4MPa,喷料口距离地面的垂直高度应不小于40m。
7.根据权利要求1所述的一种装配大理石瓷砖浇筑聚氨酯发泡颗粒保温材料方法,其特征在于:所述填充层(4)形成的步骤:
S1.首先将大理石瓷砖(3)均匀的装配在墙体(1)上,然后再将墙体(1)的下方的装配件(2)通过锚栓构件安装到墙体(1)上;
S2.再将聚氨酯发泡颗粒倒入到浇筑机中,再由浇筑机向墙体(1)和大理石瓷砖(3)的缝隙处进行填充,待浇筑料固化后,形成填充层(4)。
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