RU2166590C2 - Flat shielding structural unit and method for its manufacture - Google Patents

Abstract

FIELD: construction engineering; erection of buildings and structures or repair and reconstruction of existing ones. SUBSTANCE: structural unit has structural and heat-insulating layers, the latter is made of light-weight material with edge chosen by perimeter, scarfing being made inside over layer thickness at 70-80 deg. to ensure anchoring of structural layer building mortar therein. Anchoring depth and width equals structural layer thickness. Volume of heat-insulating layer amounts to 70-90% of entire volume of unit. Manufacturing method involves preparation of cement mortar and heat-insulating member, filling form with mortar, installation of heat-insulating member followed by vibration action and process exposure until desired stripping strength is obtained; mortar is introduced after pre-treatment of heat-insulating member with dispersed aqueous latex and liquid glass mixture over entire surface contacting structural layer. Cement mortar composition is as follows by weight: cement 100, sand 100-200, haydite dust 20-50, latex 10-30, liquid glass 5-15, water up to working consistence. EFFECT: improved heat-insulating characteristics and reliability of structure. 2 cl, 2 dwg

Description

 The invention relates to the field of construction and can be widely used in the construction of new or repair and reconstruction of existing buildings and structures.

 A known method of manufacturing a flat enclosing element containing insulating and structural layers, including the preparation of porous and dense mortar on a gypsum binder, laying in the formwork of a porous mortar of the insulating layer, subsequent laying of a dense mortar of the structural layer, curing the element and stripping it, and laying dense mortar is produced after the start of setting of the insulating layer [1].

 The disadvantage of this element is its low heat-insulating ability and low weather resistance.

 The closest technical solution to the proposed one is an artificial two-composite building element, made as a single product of two elements - a pre-made core of light and low heat-conducting material, enclosed in a concrete shell, which is equipped with reinforcement from steel rods or mesh [2].

 The disadvantage of this design and the method of its manufacture is the presence of concrete edges reinforced with steel reinforcement, which reduces the heat resistance of the element, as well as the insufficient reliability of the adhesion of the heat-insulating and structural layers, low operational stability of the entire structure.

 The objective of the invention is to increase the heat-shielding properties of the enclosing element and the operational reliability of the structure.

The task in terms of construction is achieved by the fact that in a flat building envelope containing heat-insulating and structural layers made respectively of insulating material and mortar, the heat-insulating layer is made of lightweight mortar material, the heat-insulating layer is made of lightweight material with a selection of angular edges around the perimeter with a bevel along the thickness of the layer inwardly at an angle of 70-80 ^o to ensure the anchoring in it of the mortar of the structural layer, while the depth and width of the anchoring is equal to the thickness of the structural layer taken 10-30 mm, and the volume of the insulating layer is 70-95% of the total volume of the element.

 The problem in terms of the method of manufacturing a flat building envelope is achieved by the fact that in the method, including the preparation of the mortar and the heat-insulating element, pouring the mortar into the mold, installing the heat-insulating element, followed by vibration and technological exposure to the formwork strength, the mortar is filled after preliminary processing a heat-insulating element along the entire contact surface with a structural layer of water th dispersion of a mixture of latex and liquid glass at a ratio of 1: 1-0.5.

 Thus, the claimed enclosing element provides a solution to the above problems.

 In FIG. 1 shows a planar enclosing member; FIG. 2 is a section AA in FIG. 1.

 The building element is a single two-layer structure consisting of a heat-insulating layer 1 of lightweight insulating material with a selection of the corner edge 3 and a layer of mortar 2 with additives.

The heat-insulating element 1, which occupies 70-95% of the total volume of the element, has a selection of angular edges along the perimeter at an angle of 70-80 ^o [3], which ensures reliable adhesion of the layers and makes it possible to use easily deformable heat-insulating materials (polystyrene foam) as the material of the aforementioned layer hard mineral wool slabs, polyurethane foam, etc.). The size of the depth and width of the anchoring is equal to the thickness of the structural layer and is 10-30 mm.

 A method of manufacturing a flat building envelope consists of the following technological operations.

At the bottom of the mold, pour a mortar based on a cement binder, which contains, parts by weight:
Cement - 100
Sand - 100-200
Expanded clay dust - 20-50
Latex - 10-30
Liquid glass - 5-15
Water - To a working consistency.

To prepare the mortar and dispersion mixture for processing the heat-insulating element, sodium or potassium liquid glass, synthetic latexes SKS-65 GP, SKS-50 GPS, DMMA-65 GP, etc. are used, expanded clay dust is a waste product of expanded clay production with a specific surface of 2000 - 3000 cm ² / g, quartz sand with M _k = 1-1.5, cement.

A prefabricated heat-insulating element is treated over the entire surface in the zone of contact with the structural layer with an aqueous dispersion of a mixture of latex and liquid glass at a ratio of 1: 1-0.5 and a temperature of 30-35 ^o C, they are kept until film formation at (20 + 2) ^o C , set into a mold with a solution until hardened, after which vibration compaction is performed with a uniformly distributed force of 0.005-0.01 MPa directed from above along the plane of the molded product.

 The use of such building elements will significantly increase the thermal properties of building envelopes and will save material and labor costs during the construction of new and reconstruction of existing buildings and structures.

Sources of information
1. RF patent N 2045635, E 04 C 2/26, B 32 B 13/02, 1993

 2. RF patent N 2084595, E 04 C 1/40, 1997

Claims (2)

1. A flat building envelope, including heat-insulating and structural layers, respectively made of an insulating material and a mortar based on cement binder as a whole, characterized in that to increase the reliability and heat-shielding properties of the structure, the heat-insulating layer is made of lightweight material with a corner edge sample perimeter chamfered over the layer thickness inwardly at an angle of 70 - 80 ^o for anchoring therein mortar structural layer, wherein elichina anchoring depth and width equal to the thickness of the structural layer and is 10 - 30 mm, and the volume of the heat-insulating layer is 70 - 90% of the total cell volume. 2. A method of manufacturing a flat building envelope, comprising preparing a building mortar of a structural layer, filling the mold with a mixture, installing a prefabricated insulating element in the mold and hardening, characterized in that the installation of the insulating element pre-treated over the entire surface in the zone of contact with the structural layer of water the dispersion of a mixture of latex and liquid glass at a ratio of 1: 1 - 0.5 and a temperature of 30 - 35 ^o With subsequent exposure to temperature (20 ± 2) ^o C until the moment of film formation, produce in a cement mortar of the structural layer, containing, parts by weight:
Cement - 100
Sand - 100 - 200
Expanded clay dust - 20 - 50
Latex - 10 - 30
Liquid glass - 5 - 15
Water - To a working consistency
and prepared by successive mixing of cement and expanded clay dust with 50% mixing water, then with a mixture of latex and liquid glass with 50% mixing water, then sand, followed by vibration compaction with a uniformly distributed force of 0.005 - 0.01 MPa.

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