RU2035558C1 - Wall panel - Google Patents

Abstract

FIELD: building structures. SUBSTANCE: wall panel has exterior and interior concrete layers 1 and 2 and warmth-keeping member 3. The latter has hollow cells 5 on the boundary with interior surface of exterior layer 1. Depth of hollow cells does not exceed 1/2 of warmth-keeping member thickness. EFFECT: higher warmth-keeping efficiency. 3 dwg

Description

 The invention relates to construction and may find application as an external building envelope in civil and industrial buildings.

Known multilayer wall panel, including heat-insulating and facing layers and air ventilated layers located on the outer side of the panel between the layers [1]
The disadvantage is low heat-shielding qualities due to convective heat transfer along the longitudinal air layers and the presence of through holes in the facing layer.

Closest to the technical nature of the invention is a wall panel, including the outer and inner concrete layers and an intermediate layer of insulation with horizontally located hollow cells in it [2]
The disadvantage is low heat efficiency, since the location of the hollow cells in the middle of the panel at the border of negative and positive temperatures increases the heat transfer by radiation.

 The objective of the invention is to increase the thermal efficiency of the panel.

 This is achieved by the fact that in the wall panel for the outer walls of buildings, including the outer and inner concrete layers and the intermediate layer of insulation with hollow cells located in it, the latter are located on the border with the inner surface of the outer layer of the panel, while the cell depth does not exceed 1/2 insulation layer thickness.

 A distinctive feature of this technical solution is the location of the hollow cells in the panel in the zone of negative temperatures. This provides an increase in the thermal resistance of the panel by reducing heat transfer by radiation, which is one of its components.

Heat transfer in the air spaces is carried out by means of heat conduction, convection and radiation and is determined on 1 m ^{2 of the} wall according to the formula:
QQ ₁ + Q ₂ + Q ₃ , where Q _{1 the} amount of heat transmitted by thermal conductivity, W / m ² ;
Q _{2 the} amount of heat transferred by convection, W / m ² ;
Q _{3 the} amount of heat transmitted by radiation, W / m ² .

 A decrease in one of the components, in this case, radiation, leads to an increase in thermal resistance.

 In FIG. 1 shows a wall panel, a vertical section; in FIG. 2 wall panel, horizontal section; in FIG. 3, section AA in FIG. 2.

 The wall panel consists of the outer and inner concrete layers 1 and 2 and the intermediate layer of insulation 3. The outer and inner layers are interconnected by ribs 4. In the insulation layer 3 at the boundary with the inner surface of the outer layer there are horizontal cylindrical hollow cells 5 with caps 6 at the ends . The depth of the cells does not exceed 1/2 of the thickness of the insulation layer 3. Between the cells, stiffening ribs 7 of the insulation are formed. Between the outer layer 1 and the insulation layer 3 there is an airtight layer 8, for example a plastic film.

 The width of the stiffening ribs 7 of the insulation is determined from the condition of its strength when compacting the inner layer 2 in the manufacture of the panel.

 The airtight layer 8 serves to form closed volumes between the hollow cells 5 and the freshly formed outer layer 1.

 The panel is made as follows.

 The outer layer 1 of concrete is laid at the bottom of the mold, then the airtight layer 8 and the insulation 3 with the hollow cells 5 previously formed in it. The inner layer 2 of concrete is laid on the insulation. The insulation is placed on the airtight layer 8 with the open side of the cells.

100 < 30% где V объем замкнутых пустотелых ячеек, м³;
V_o объем утеплителя панели, м³.Insulation perforation coefficient is equal to ζ

100 <30% where V is the volume of closed hollow cells, m ³ ;
V _{o the} volume of the insulation panel, m ³ .

As a heater, hard polystyrene foam is used. The coefficient of its thermal conductivity with closed hollow cells is 0.04-0.055 W / m˙ ^о С, which corresponds to the coefficient of thermal conductivity of expanded polystyrene without voids (0.041-0.052 W / m˙ ^о С).

 In this regard, this technical solution provides, in addition to increasing heat efficiency, and insulation savings of up to 30%

Claims (1)

 WALL PANEL for the outer walls of the building, including the outer and inner concrete layers and the intermediate insulation layer with hollow cells in it, characterized in that the hollow cells are located on the border with the inner surface of the outer layer of the panel, while the cell depth does not exceed 1/2 of the layer thickness insulation.

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