RU57312U1 - STEAM-RESISTANT FABRIC - Google Patents

Abstract

Usage: the utility model relates to the construction materials industry, in particular roofing materials. Task: simplifying the manufacture of vapor-permeable fabric, improving its quality indicators. The essence of the utility model: the fabric consists of a woven layer formed by interweaving the main and weft polymer threads and the surface layer of the laminate, the number of the main and weft polymer threads is selected from the following ratios:

0.97n ₁ > n ₁ ¹ > 0.8n ₁ or 1.2n ₁ > n ₁ ¹ > 0.59n ₁ ,

1.2n ₂ > n ₂ ¹ > 0.59n ₂ or 0.97n ₂ > n ₂ ¹ > 0.8n ₂ ,

wherein n ₁ ¹ + n ₂ ¹ > (n ₁ + n ₂ ) · 0.87, where

n ₁ ¹ (n ₂ ¹ ) - the actual number of threads (ribbons) on the basis (in the weft) per unit length (width) of the fabric;

n ₁ (n ₂ ) is the number of straightened (without folds) threads (ribbons) on the basis (according to the weft) per unit length (width) of the fabric.

Description

The utility model relates to the building materials industry, in particular to roofing materials.

One of the conditions for building a house that can provide comfortable living conditions for a long time is the installation of a joint system of steam and moisture protection of building structures and insulation. To preserve the heat-insulating properties of the roof, it is necessary to provide vapor barrier insulation from saturation with water vapor from the inside of the room, and also reliably protect it from moisture from the environment. In this case, the external moisture protection must be vapor permeable, ensuring the weathering of water vapor from the insulation into the atmosphere.

A woven cloth for coating is known (c. France No. 2426782, E 04 D 5/06), which is a lightweight cloth of high tensile and tear strength and having a base mesh into which polyamide yarns are woven at a certain interval, giving greater tensile strength the elongation of which is less than the elongation of the fibers of the fabric, which is at least on one side air and waterproof due to the coating of a material for which the temperature of application to the fabric is lower than the softening temperature of the fabric threads.

The disadvantage of this coating is low vapor permeability, not more than 10 g / m ² × 24 hours.

The closest in technical essence is a waterproofing fabric (c. RF No. 2004117474, priority dated 06/17/2004. E 04 D 5/06), consisting of a woven layer formed by interweaving the main and weft polymer threads, and the surface layer of the laminate,

made tread. The fabric is microperforated, and the perforation is made in the form of branched holes, while the width of the branches does not exceed the diameter of the hole. Microperforation is applied in rows into the distance of the main threads of the fabric to organize the flow of moisture.

The disadvantage of this fabric is the complexity of the fabric, the instability of obtaining the required vapor permeability in its manufacture.

The objective of this technical solution is to simplify the manufacture of vapor-permeable fabric, increase its quality indicators.

The problem is solved in that in a vapor-permeable fabric consisting of a woven layer formed by interweaving of the main and weft polymer threads and the surface layer of the laminate, the number of the main and weft polymer threads is selected from the following ratios:

0.97n ₁ > n ₁ ¹ > 0.8n ₁ or 1.2n ₁ > n ₁ ¹ > 0.59n ₁ ,

1.2n ₂ > n ₂ ¹ > 0.59n ₂ or 0.97n ₂ > n ₂ ¹ > 0.8n ₂ ,

wherein n ₁ ¹ + n ₂ ¹ > (n ₁ + n ₂ ) · 0.87, where

n ₁ ¹ (n ₂ ¹ ) - the actual number of threads (ribbons) on the basis (in the weft) per unit length (width) of the fabric;

n ₁ (n ₂ ) is the number of straightened (without folds) threads (ribbons) on the basis (according to the weft) per unit length (width) of the fabric.

The following is the essence of the utility model and an example of a specific implementation.

The woven layer is formed by interweaving the warp and weft polymer threads and the surface layer of the laminate. The number of warp and weft polymer threads is selected from the following ratios:

0.97n ₁ > n ₁ ¹ > 0.8n ₁ or 1.2n ₁ > n ₁ ¹ > 0.59n ₁ ,

1.2n ₂ > n ₂ ¹ > 0.59n ₂ or 0.97n ₂ > n ₂ ¹ > 0.8n ₂ ,

wherein n ₁ ¹ + n ₂ ¹ > (n ₁ + n ₂ ) · 0.87, where

n ₁ ¹ (n ₂ ¹ ) - the actual number of threads (ribbons) on the basis (in the weft) per unit length (width) of the fabric;

n ₁ (n ₂ ) is the number of straightened (without folds) threads (ribbons) on the basis (according to the weft) per unit length (width) of the fabric.

So, for example, when choosing a ribbon width of 3 mm, a web thickness of 0.09 mm, a web fragment is 100 mm wide and high, we get n ₁ = 33, n ₂ = 33. Substituting these data into the first inequality, we obtain 32> n ₁ ¹ > 27. If the number of ribbons n ₁ ^{1 is} greater than 32, then the gaps between adjacent ribbons tend to zero, which reduces the vapor permeability of the fabric, and if less than 27, the fabric becomes loose, especially for small values of n ₁ ¹ . Substituting these data into the second inequality, we obtain 39> n ₂ ¹ > 20. If the number of ribbons n ₂ ¹ exceeds 39, then the material is unnecessarily consumed, and the vapor permeability does not increase, if less than 20, then the fabric crumbles and does not keep a uniform structure. In particular, with n ₁ ¹ = n ₂ ¹ = n ₁ = n ₂ = 33, the vapor permeability is 12-16 g / m ² · 24 hours, while with the above parameters 20-32 g / m ² · 24 hours. It was experimentally established that if the third inequality is not observed - the total number of actual ribbons is much less (more than 13%) of the sum of ribbons n ₁ and n ₂ - and the coefficient is set lower than 0.87, then the fabric is loose and falls apart before lamination, those. its strength is significantly impaired.

By changing the ratios n ₁ ¹ and n ₂ ¹ within the stated limits, the gaps between the ribbons decrease or increase and the vapor permeability is accordingly regulated while maintaining the strength properties of the fabric.

Claims (1)

The vapor-permeable fabric, consisting of a woven layer formed by interweaving the main and weft polymer threads, and the surface layer of the laminate, characterized in that the number of the main and weft polymer threads is selected from the following ratios: 0.97n ₁ > n ₁ ¹ > 0.8n ₁ or 1.2n ₁ > n ₁ ¹ > 0.59n ₁ , 1.2n ₂ > n ₂ ¹ > 0.59n ₂ or 0.97n ₂ > n ₂ ¹ > 0.8n ₂ , wherein n ₁ ¹ + n ₂ ¹ > (n ₁ + n ₂ ) · 0.87, where n ₁ ¹ (n ₂ ¹ ) - the actual number of threads (ribbons) on the basis (in the weft) per unit length (width) of the fabric; n ₁ (n ₂ ) is the number of straightened (without folds) threads (ribbons) on the basis (according to the weft) per unit length (width) of the fabric.