RU93843U1 - CONSTRUCTION PRODUCT FOR COVERING AND WARMING OF CONSTRUCTION STRUCTURES - Google Patents

Abstract

 1. A building product for cladding and insulation of building structures, contains at least two layers of foam glass with different porosity or one layer of solid glass and at least one layer of foam glass and is covered with ceramic tile from the side of the layer with the lowest porosity. ! 2. The product according to claim 1, characterized in that it contains a layer of solid glass and two or more layers of foam glass with different porosity. ! 3. The product according to claim 1, characterized in that it contains three or more layers of foam glass with different porosity. ! 4. The product according to claim 1, characterized in that it contains internal reinforcement.

Description

The utility model relates to the field of construction, namely to the designs of prefabricated blocks made in the form of heat-insulating panels for facing the outer surface of buildings and structures.

Known panel for facing buildings and structures (RU No. 31511 U1, 2003), containing a sheet of silicate glass, to the back of which are attached, for example, an adhesive composition anchors with which these elements are attached to the array of the main panel. All this requires additional technological operations, which leads to an increase in the cost of the entire panel structure, and the mounting process of the cladding, in some cases, is not controlled, which can lead to the separation of the cladding during the operation of buildings and structures.

Also known is a wall panel for facing and warming building structures (RU No. 2275480 C1, 2006), including a sheet of silicate glass or porcelain tile placed from its front surface, to the back of which a layer of foamed heat-insulating material with closed pores is attached through an reinforcing mesh .

This panel is more technological in execution, but has the same disadvantages as the previous one.

The objective of this utility model is to create an environmentally friendly design that provides ease of installation on a building or structure with a comprehensive solution to technological issues associated with its manufacture with a corresponding reduction in costs, without loss of operational properties.

The technical result of the utility model is to simplify the manufacturing technology of the panel and increase the reliability of fastening of facing ceramic tiles.

The technical result is achieved in that the building product for cladding and insulation of building structures contains at least two layers of foam glass with different porosity or one layer of solid glass and at least one layer of foam glass and is covered with ceramic tile from the side of the layer with the smallest porosity, including from the side of a solid glass layer as having zero porosity.

In the event that the product contains one layer of solid glass and more than one layer of foam glass or if it contains more than two layers of foam glass, the layers of foam glass may have different porosity. In this case, the porosity of the layers is selected depending on the problem being solved.

The foam glass layer with the highest porosity can be between the layers with lower porosity or between the layer with lower porosity and the solid glass layer. In this case, the outer layers provide the strength of the product, and the middle layer - thermal insulation and weight reduction of the product.

It is possible that the layer with the lowest porosity is located on the free side of the product facing the inside of the room. In this case, thermal insulation and weight reduction are provided.

Other options are possible for the number of layers and their porosity depending on the problem being solved.

A building product is a wall panel for facing and warming building structures or its element (block) in the form of a monolithic foam glass construction with reinforcement (or without reinforcement) installed inside the panel volume and covered with a layer of ceramic tile, and the foam glass in the panel volume is composite ( layered) structure in which the porosity of the material can vary from zero to 95% of the thickness of the panel in the direction from the ceramic tile.

The design of the finished wall panel can be either a single unit, or a set of elements - blocks, interconnected by adhesive compositions.

The outer surface of the panel is faced with facade ceramic tiles (during the manufacture of the panel), while the composite structure ensures reliable adhesion of the tile to the panel material.

This is achieved by the fact that the wall panel for facing building structures is manufactured in the factory by mixing specially prepared mixture in heat-resistant forms in a tunnel furnace at firing temperatures above 800 ° C.

The composite structure of the foam glass in the product volume is achieved by the fact that the prepared charge is poured into a heat-resistant form before firing layer by layer. Moreover, each layer of the mixture has different parameters of the blowing agent or composition. As a result of general sintering, the product is made of foam glass with different values of porosity over the cross section.

To give the wall panel of the facade surface of the brickwork texture to the bottom of the heat-resistant form, ceramic tiles are laid and covered in layers with a mixture.

Moreover, the lower layer of the charge may be a powder of ground glass without a blowing agent.

Low or zero porosity of the adhesive layer provides reliable adhesion of ceramic tiles with foam glass.

The present utility model is illustrated by the following embodiments, which do not limit the scope of use of the invention.

Example 1

Ceramic tiles are laid at the bottom of the heat-resistant mold and filled with ground glass powder with a residue on sieve No. 0063 of no more than 5% 2 cm thick, excluding the thickness of the tile. Then, a 4 cm thick layer of metasilicate, which is obtained by mixing Tripoli with NaOH in the amount of 15% by weight of dry Tripoli and with an amount of mixing water of 0.42 of the total mass of dry Tripoli and alkali, is poured. Then a layer of sodium metasilicate 8 cm thick, obtained by mixing Tripoli with NaOH in the amount of 12% by weight of dry Tripoli and with the amount of mixing water 0.6 of the total mass of dry Tripoli and alkali, is poured. After firing the specified composition at a temperature of 870 ° C, a product with a thickness of 25 cm was obtained with a peel strength of 1 MPa, which corresponds to the regulatory documentation for panels used for housing with a specific gravity in the first layer of 300 kg / cubic meter and specific gravity in the second a layer of 450 kg / cubic meter and with almost zero porosity in the adhesive layer.

Example 2

Ceramic tile is laid on the bottom of the heat-resistant form and covered with a 2 cm thick layer of sodium metasilicate, not taking into account the tile thickness obtained by mixing Tripoli with NaOH in the amount of 25% by weight of dry Tripoli and with the amount of mixing water 0.42 of the total mass of Dry Tripoli and alkalis. Then, in a heat-resistant form, fittings are installed in accordance with the working drawings for the product. Then a layer of sodium metasilicate 14 cm high, obtained by mixing Tripoli with NaOH in an amount of 14% and an amount of mixing water of 0.54 of the total mass of dry Tripoli and alkali, is poured. After firing the specified composition at a temperature of 870 ° C, a product with a thickness of 25 cm was obtained with a peel strength of 0.99 MPa, a porosity in the adhesive layer of 10% and a bulk density in the insulating layer of 370 kg / cubic meter.

Claims (4)

1. A building product for cladding and insulation of building structures, contains at least two layers of foam glass with different porosity or one layer of solid glass and at least one layer of foam glass and is covered with ceramic tile from the side of the layer with the lowest porosity. 2. The product according to claim 1, characterized in that it contains a layer of solid glass and two or more layers of foam glass with different porosity. 3. The product according to claim 1, characterized in that it contains three or more layers of foam glass with different porosity. 4. The product according to claim 1, characterized in that it contains internal reinforcement.