SU838041A1 - Laminated construction element - Google Patents

Description

(54) MULTILAYER CONSTRUCTION ELEMENT

one

The invention relates to land construction, in particular to the construction of multi-layer prefabricated building elements, and can be used as panels, exterior walls, coating slabs, etc. enclosing structures, the manufacture of which can be organized in precast concrete plants.

A multi-layered construction element of the wall panel type is known, consisting of concrete protective layers and an average heat insulation layer between them, made of bulk insulation of the expanded perlite type enclosed in a moisture-proof fl shell.

Closest to the invention is a reinforced concrete element, which includes the outer concrete layers and bulk insulation, for example, expanded vermiculite, and enclosed in hermetic cells of a cylindrical forca made of moisture-proof casing 2 connected in packages.

The disadvantage of this solution is that the installation of heat-insulating packages consisting of a set of ryom-arranged hermetic cells is possible only in long-length elements of a limited cross section such as beams, girders, columns, etc. overlap, tiy) the placement of insulation packages in the middle layer separates the concrete barrier layers from each other and prevents their joint reliable operation. In addition, the placement of individual cells of insulation in the non-working section of the building element does not ensure the achievement of such performance characteristics required for the enclosing structures as water, air and vapor impermeability.

The purpose of the invention is to improve the performance, increase the stiffness and reliability of the multi-layered building element of the wall panel type.

Claims (2)

This is achieved by the fact that in a multi-layered building element that includes outer concrete layers and an inner layer of bulk insulation, enclosed in hermetically sealed cylindrical cells interconnected into packages, at least one of the concrete layers is made with stiffeners, and - insulation cells are placed in the spaces between the ribs and interconnected by flat bridges of moisture-proof material. If it is necessary to install several insulation packages in the middle heat insulating layer, each insulation package is made around the perimeter with flat releases of moisture-proof material and is laid with an overlap with adjacent packages to the width of the release. To provide additional bonding between the concrete layers, for example, skipping reinforcing bars or forming concrete keys, re-points and outlets can be perforated with yen. FIG. 1 schematically shows an element; a vertical section A-A in FIG. 3; in fig. 2 — node I in FIG. 1 in the element is formed overlap of two vertically adjacent packages of insulation} in FIG. 3 is a horizontal section through the element of FIG. one; in fig. 4 — node II in FIG. 3, in the element there is formed the overlap of two horizontally adjacent packages of insulation J in FIG. 5 - insulation package, general view. The multilayered building element consists of two barrier concrete layers 1 and 2, at least one of which 2 is made with stiffeners 3, for example, a trapezoidal section. In the element, stiffeners 3 can be performed only horizontally, or only vertical, or in both directions, depending on the geometric parameters of the element and the direction of external forces acting on it. Between the concrete layers 1 and 2 of the element there is an average heat insulation layer made of bulk insulation, for example, exfoliated vermiculite or perlite, enclosed in hermetic packages of hermetic cells 4 of cylindrical shape, of a moisture-proof casing. Cells 4 are placed in the gaps between the edges 3 of the concrete layer 2, spread out the width of the ribs 3 and are interconnected by flat bridges 5 of moisture-proof material. Each package of insulation contains, so, several cells 4, connected | B x interconnected by jumpers 5. Along the perimeter of the bag, releases of water-proof material are formed. In the element, adjacent packages are mounted with an overlap of releases 6 between each other for the width of the release. . Jumpers 5 and / or outlets 6 can be perforated 7 to merge the concrete layers 1 and 2 together. Such a constructive solution provides for giving the wall panel increased water, air and vapor impermeability, enhancing performance, rigidity, strength and reliability of the panel. The presence of overlapping insulation packages placed in the cells of a moisture-proof casing, connected between them by moisture-proof bridges, provides an increased impermeability of the panel. The presence of stiffeners on the concrete layers of the element, combined with bridges in the layer of insulation, provides increased rigidity of the concrete layers and the element as a whole due to the joint work of the layers. Claim 1. A multi-layered building element comprising outer concrete layers and an inner layer of bulk insulation, enclosed in hermetic cylindrical cells interconnected in packages, of a moisture-proof casing, which, in order to improve performance,. increase of rigidity and reliability of operation, at least one of the concrete layers is made with stiffeners, and insulation cells are placed in the gaps between the ribs and interconnected by flat bridges of moisture-proof material. 2. The element of claim 1 is distinguished by the fact that each package of insulation is made around the perimeter with flat releases of moisture-proof material and is placed between adjacent packages with an overlap on the width of the release. 3. The element according to claim 2, characterized in that the jumpers and outlets are perforated. Sources of information taken into account during the examination 1.ven 32-77. Instructions for the design of the design of residential residential buildings. M., stroiizdat, p. 25-28. 2. USSR author's certificate number 334354, cl. E 04 C 3/20, 1971. Tchtt: X 0 J X about L five  ... “O 0 o ° about oh oh ".".about " FIG. 7 . / H ". Fah.g 3