一种减小中空玻璃单元因玻璃间空间部分稀疏而产生的扭曲曲率的方法

IF 0.3 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Light & Engineering Pub Date : 2021-10-01 DOI:10.33383/2021-071

A. Plotnikov

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引用次数: 0

摘要

目前，中空玻璃单元(以下简称IGU)是幕墙中使用的半透明填料的主要类型。在气候荷载的影响下，玻璃间空间的厚度发生变化，导致玻璃变形。玻璃的变形导致了幕墙的光学畸变。本文考虑了现有工程实践中用于减少IGU扭曲曲率的技术解决方案:使用更刚性的外部玻璃作为IGU的一部分，使用带有外部独立单玻璃的双层幕墙，使用真空IGU。提出了一种通过固定玻璃间空间厚度来减小玻璃间空间变形曲率的新方法。它是通过在窗格之间安装其他点或线性支撑来实现的。其他支架的引入解决了只有在IGU被压缩时才能减少变形的问题。当玻璃间空间扩大时，支架停止工作，玻璃自由变形。因此，为了避免这种偏转，有必要对IGU进行预压缩，使其承受与在该物体建筑区域内运行的IGU所承受的气候载荷相当的载荷。计算表明，对于莫斯科城市的气候条件，玻璃间空间所需的稀薄度仅为绝对大气压力的5%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Method of Reducing the Distorting Curvature of Insulated Glass Units Due to Partial Rarefaction in Interglass Space

Currently, insulated glass units (hereinafter abbreviated as IGU) are the main type of translucent filling used in curtain walls. Under the influence of climatic loads in IGU, the thickness of the inter-glass space changes, leading to the deformation of the glasses. Deformations of glass lead to optical distortions on curtain walls. The paper considers the technical solutions used in the existing engineering practice to reduce the distorting curvature of IGU: the use of more rigid external glasses as part of IGU, the use of double-skin facades with external independent single glass, the use of vacuum IGUs. A new method is proposed to reduce the distorting curvature of IGUs by fixing the thickness of the interglass space. It is achieved by installing other point or linear supports between the panes. The introduction of other supports solves the problem of reducing deformations only when IGU is compressed. When the interglass space is expanded, the supports are turned off from operation and the glass is freely deformed. Therefore, to avoid such deflections, it is necessary to pre-compress the IGU under a load equivalent to the climatic load on the IGUs operating in the construction area of the object. Calculations show that for the climatic conditions of the city of Moscow, the required degree of rarefaction the interglass spaces is only 5 % of the absolute atmospheric pressure.

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来源期刊

Light & Engineering ENGINEERING, ELECTRICAL & ELECTRONIC-OPTICS

CiteScore

1.00

自引率

50.00%

发文量

审稿时长

1 months

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