UA148747U - METHOD OF MANUFACTURE OF THERMAL INSULATION FACING PANEL - Google Patents

Abstract

A method of manufacturing a heat-insulating facing panel includes sequential laying of facing ceramic tiles in a form with subsequent laying of a base on it with ensuring their adhesion. When laying facing ceramic tiles in the form adjust its location in a checkerboard pattern, simulating a brick masonry so that parts of the tiles in a row protrude beyond the edges of the side faces of the base, forming a locking connection during installation. Styrofoam is used as a basis. Along the perimeter of the base perform grooves, by milling, having a width and depth of 1.5-2 cm, two adjacent ribs on one side of the base and two other adjacent ribs on the other side of the base, thus providing on the opposite edges of the depression on the one hand and a speech on the other. The adhesion of the base and ceramic tile is done by applying polyurethane glue to the surface of the base with subsequent moistening with spray water and laying the base with an adhesive surface on the back of the tile. The panel is formed by pressing with a gradual increase in pressure of 30-40 kg / cm2, the time of which is selected from the condition of the polarization time of the adhesive used for 35-45 minutes.

Description

The useful model belongs to the production of building materials and can be used in the manufacture of products and structures with cladding, which also provides external protection from atmospheric influences.

Based on the reasons of energy saving, in the field of construction there is an increasing need for thermal insulation of buildings in such a way that the cold does not penetrate from the outside and the heat is well stored inside the premises. For this purpose, multi-layer insulation panels are widely used in building structures, for example, for thermal insulation of walls, floors and roofs.

Heat-insulating panels are designed as an element of high energy-saving technologies, which in terms of their structural and technological features are significantly superior to traditional heat-insulating materials. In addition, modern heat-insulating panels often consist of several functional layers, which perform both a heat-insulating function and simultaneously serve for cladding buildings and structures. So, the existing facade heat-insulating panels are practically a ready-made facade, which includes facing elements and heat-insulating material, which are connected to each other in a certain way. At the same time, the quality and appearance of the facing are practically flawless. There are many types of panels that differ in design, materials used, and methods of fastening to the facade. The requirements for thermal insulation panels are also known. These include high thermal characteristics, durability, fire resistance, strength and reliability, quick and easy installation in various weather conditions.

However, existing types of thermal insulation panels often do not meet one or another of the requirements listed above. Most often, the panels are not sufficiently strong or rigid, which is the reason for their operational reliability to decrease, and also often have to carry out quite complex installation work, which requires both high professionalism of the staff and an increase in material costs for installation. The methods of manufacturing panels also vary depending on the complexity of the panel and the technical result that must be ensured when using the product. Therefore, an urgent problem is the method of creating a heat-insulating panel, which would allow to ensure the production of a product that meets all the requirements for this type of product.

Ko) There is a known method of manufacturing building thermal insulation panels, chosen by us as the closest analogue, in which the panel is made by sequentially laying layers of facing material, dry cement-sand mixture with subsequent moistening, vibration compaction and concreting. (ZO Mob55546, published, April 9, 1979, bulletin

Mo13).

The disadvantage of the known technical solution is the time-consuming manufacturing of the product, insufficient strength under the influence of adverse weather conditions, and low moisture resistance.

The basis of the useful model is the task of reducing the labor intensity of manufacturing the product, as well as increasing the manufacturability, increasing the thermal insulation characteristics, strength and water resistance of the product.

The task is solved in the method of manufacturing a heat-insulating facing panel, which includes the sequential laying of facing ceramic tiles in a form with subsequent laying on it of a base to ensure their adhesion, according to a useful model, when laying facing ceramic tiles in a form, its location is regulated in a checkerboard pattern, imitating brickwork in such a way that the parts of the tiles in a row protrude beyond the edges of the side faces of the base, forming lock joints during installation, and polystyrene foam is used as the base, at the same time, along the perimeter of the base, grooves are made by milling, having a width and depth of 1.5-2 cm, on two adjacent ribs on one side of the base and on two other adjacent ribs on the other side of the base, thus providing, on the opposite ribs, a depression on one side and a protrusion on the other, and ensuring adhesion of the base and ceramic tiles occurs by applying polyurethane glue to the surface of the base with subsequent moistening of it with sprayed water and laying the base with an adhesive surface on the back side of the tile and forming a panel by pressing with a gradual increase in pressure of 30-40 kg/cm-, the time of which is chosen from the condition of the time of polarization of the used adhesive substance, within 35-45 minutes.

The use of a set of essential features will allow to obtain products with high physical and technical indicators of thermal insulation, strength and water resistance of the product. Production of products according to the proposed technology will allow to increase the quality of products, labor productivity and expand the range of products, increase the rigidity, reliability and durability of products, and will also allow to ensure ease of installation on walls. (510)

The method of manufacturing a heat-insulating panel.

Facing tiles are placed on the support surface (form). Placement is carried out in a certain order to create one or another pattern, and facing tiles with different textures can also be used. The facing ceramic tile is laid sequentially, while adjusting its location in a staggered order, so that parts of the tiles in a row protrude beyond the edges of the side faces of the base, thus forming lock joints during installation, which are necessary to eliminate the "cold bridge".

As a base, either EP5-70, 80 foam, or XP5 extruded polystyrene foam is used, which are technical equivalents, along the contour of which grooves are made by milling, 1.5-2 cm wide and deep, along two adjacent edges on one side base and along two other adjacent ribs on the other side of the base, thus providing on the opposite ribs a depression on one side and a protrusion on the other.

Polyurethane glue is applied to the surface of the base with subsequent moistening (it is sprayed with water and the base is laid with the adhesive surface on the back side of the layer laid in the form of ceramic tiles. The product is pressed with a gradual increase in pressure up to 30-40 kg/cm). The pressing time is chosen based on the polarization time of the applied adhesive, for example, within 35-45 minutes.

The use of the proposed useful model will make it possible to obtain a product with high technological and operational characteristics, to ensure high thermal characteristics, rigidity, reliability and durability of the product, as well as to ensure ease of installation of the structure.

Claims (1)

USEFUL MODEL FORMULA The method of manufacturing a heat-insulating facing panel, which includes sequential laying of facing ceramic tiles in a form with subsequent laying on it of a base to ensure their adhesion, which is distinguished by the fact that when laying facing ceramic tiles in a form, its location is regulated in a checkerboard pattern, simulating brickwork in such a way that the parts of the tiles in a row protrude beyond the edges of the side faces ZO of the base, forming lock joints during installation, and polystyrene foam is used as the base, while along the perimeter of the base, grooves are made by milling, having a width and depth of 1 ,5-2 cm, on two adjacent ribs on one side of the base and on two other adjacent ribs on the other side of the base, thus providing, on the opposite ribs, a depression on one side and a protrusion on the other, and the adhesion of the base and the ceramic tile takes place by applying polyurethane glue to the surface of the base, followed by moistening it with sprayed water and laying the base with an adhesive surface on the back side of the tile, forming the panel by pressing with a gradual increase in pressure of 30-40 kg/cm-, the time of which is chosen from the condition of the time of polarization of the used adhesive substance, within 35-45 minutes.