SU1724831A1 - Three-layer wall panel - Google Patents

Abstract

The invention relates to building structures. The goal is to increase the heat-shielding properties and reduce the labor intensity of panel manufacturing. For this, in a three-layer panel, the heat insulating layer is made of low-heat-conducting granules with a bulk density of 110-130 kg / m, for example, of a silica-pore fraction 1-5, 5-10, 10-20 mm with a ratio of granules, wt;%: fraction 1-5 mm 72.7-84.5; 5-10 mm 14.25-25.75; 10-20 mm 1.25-1.55. This ratio of insulation components is optimal, since a decrease in the number of components in the 1-5 and 5-10 mm fraction below the specified limits leads to the emergence of internal air convection in the intergranular space and an increase in the thermal conductivity coefficient. 3 il.

Description

The invention relates to building structures, in particular to three-layer wall panels.

The purpose of the invention is to increase the heat-shielding properties and reduce labor intensity in the manufacture.

Figure 1 shows the wall panel; figure 2 - section aa in figure 1; figure 3 - section bb in figure 1.

The three-layer wall panel consists of facing reinforced concrete layers 1 and 2, interconnected by flexible metal connections 3, a layer of insulation 4 made of granular material and boards located along the perimeter of the panel and openings made of plate material 5.

The proposed three-layer wall panel in comparison with the known allows to increase the heat-shielding properties and

reduce the complexity of its manufacture. Laboratory studies have shown that when the density of insulation is y0 115 kg / m3, the thermal conductivity coefficient is Yae 0.059 W / m ° C, the labor intensity is reduced by 10-15% due to the exclusion of cement in the middle layer during molding.

EXAMPLE 1. A three-layer panel 3.6 x 2.8 x 0.35 m in size. A reinforcing cage with flexible connections is successively placed in a mold, a bottom layer of concrete 180 mm thick, inserts of thermal insulation material, for example from slab kremnepor, 150 mm high and 200 mm wide, located along the perimeter of the panel and window opening, granular cream-poros with a ratio of components wt.%: fractions 1-5 mm 73%; fractions 5-10 mm 25.75%; fractions 10-20 mm 1.25% thickness

VI

GO

00

s

a layer of 150 mm and the top layer of concrete 120 mm thick. The surface of the concrete is leveled with a rake vibrator, after which the panel is placed in a transparent tunnel chamber with a heat treatment mode: temperature rise to 30-50 ° C for 1.5 h, holding at 80-100 ° C for 4 h, cooling at 60-70 ° From 0.5 h. Based on laboratory studies, it has been established that with a bulk density of insulation y0 115 kg / m3, the thermal conductivity coefficient of the insulation is up to 0.59 W / m ° C, the reduced resistance Ronp 2.1 m 2 C / W, the coefficient of thermal engineering uniformity. 0.81.

EXAMPLE 2 A three-layer wall panel, as in Example 1, characterized in that granulated silica-pores with a ratio of components, wt.% Were used as thermal insulation: fractions 1-5 mm 78.6%; fractions 5-10 mm 20%; fraction 10-20 mm 1.4%. The thermal conductivity coefficient of the insulation is 0.063 W / m ° C; the reduced heat transfer resistance R0np is 1.95 m2 ° C / W.

PRI me R 3. A three-layer wall panel, as in Example 1, was used as thermal insulation granulated kleinopor with a ratio of components, wt.%: Fraction 1-5 mm 84.2%; fractions 5-10 mm 14.25%; 10-20 mm 1.55%. The thermal conductivity coefficient of insulation is up to 0.073 W / m ° C, the reduced heat transfer resistance R0np is 1.86 m2 ° C / W.

Thus, a comparison of the research results showed that the most effective is the thermal insulation, where the granules of the silicon-pore are used with the ratio of the components indicated in example 1.

Claims (1)

A three-layered wall panel comprising inner and outer concrete layers connected by flexible metal connections, a middle layer of bulk insulating material, shuttering elements placed around the perimeter of the panel, made of plate heat insulating material, having a height equal to the thickness of the insulating material. material, and the width is not more than 1 / 10-1 / 20 of the height of the panel, characterized in that, in order to increase the heat-shielding properties and reduce the labor intensity of manufacturing, the middle layer is made of nulirovannogo material bulk density 110 to 130 kg / m3 fraction 1-5 mm, 5-10 mm and 10-20 with the following ratio of granules, wt%: fraction 1 -5 mm 72,7-84,5;. fractions 5-10 mm 14.25-25.75; fractions 10-20 1.25-1.55.