RU97408U1 - MULTILAYER BUILDING PANEL (OPTIONS) - Google Patents

Abstract

 1. A multilayer building panel comprising an outer layer of continuous sheet material and an insulating layer containing hollow channels bonded together by adhesive, characterized in that it contains an inner layer of continuous sheet material, the outer and / or inner layers are made of sphene concentrate, the insulating layer is a profiled sheet. ! 2. The panel according to claim 1, characterized in that between the adjacent parts of the adjacent layers are gaskets. ! 3. The panel according to claim 1, characterized in that the thickness of the outer and inner layers made of sphene concentrate is from 0.5 to 5 cm, a width of 10 to 100 cm, a length of 10 to 600 cm! 4. The panel according to claim 1, characterized in that the hollow channels are configured to create a vacuum in them. ! 5. A multilayer building panel comprising an outer layer of continuous sheet material and an insulating layer containing hollow channels bonded together by adhesive, characterized in that it contains an inner layer of continuous sheet material, the outer and / or inner layers are made of sphene concentrate, the insulating layer is a profiled sheet with a heater located in its hollow channels. ! 6. The panel according to claim 5, characterized in that between the adjacent parts of the adjacent layers are gaskets. ! 7. The panel according to claim 5, characterized in that the thickness of the outer and inner layers made of sphene concentrate is from 0.5 to 5 cm, a width of 10 to 100 cm, a length of 10 to 600 cm! 8. The panel according to claim 5, characterized in that the hollow channels

Description

The utility model relates to construction and can be used as multilayer exterior wall panels of buildings used in house building and industrial construction, as well as in the construction of facilities with high requirements for decorative cladding, heat and sound insulation of premises, for example residential buildings, cottages and other buildings .

Currently, various multilayer panel designs are used in construction. Most of them include a layer of cement or brick, requiring additional decorative finishes. As a decorative coating, stones, tiles, sheets made of natural and artificial stone, ceramics, glass, metal, wood are used. However, these coatings do not provide the desired strength, durability, resistance to meteorological influences.

A separate type of multilayer wall panels are sandwich panels, consisting of an inner layer of insulation (polystyrene foam, polyurethane foam or mineral wool) and steel sheathing, most often galvanized steel. The outer front surface is painted, coated with anticorrosive, varnish, polyesters. The disadvantages of such panels are loose joints of the layers, leading to large heat losses, fragility, wave-like deformations, peeling and swelling of the skin, microcracks due to metal fatigue, insufficient rigidity and structural strength of the panel.

Known multilayer outer wall panel (patent of the Russian Federation for utility model No. 81742), including a bearing layer of heavy concrete, a heat-insulating layer and an outer finishing layer that protects the heat-insulating layer from external atmospheric influences, and cylindrical spirals, providing a connection of the bearing layer with a heat-insulating layer. The carrier layer is equipped with a reinforcing cage, embedded parts and mounting loops. Its disadvantages are the lack of reliability of the panel, the large mass, the complexity of mounting building structures with its use, the need for decorative finishes.

Known multi-layer building panel (options) (RF patent for utility model No. 866621) containing an outer layer (casing) of solid sheet material and an insulating layer (insulation) with hollow channels. The layers are bonded together using an adhesive. The layers are bonded to each other by means of rigid structural bonds with the possibility of their dismantling after filling the hollow through channels with a binder and its hardening. Technological hollow channels can also be made in the insulating layer with the possibility of installing electric cables and / or water pipes and / or sewer pipes and / or heating pipes in them. The inner surface of the outer layer may be coated with a heat insulating or waterproofing composition. In the outer layer, transverse rod elements directed into the hollow channel can be fixed. The disadvantage of the panel is the possibility of wave-like deformations, delamination and swelling of the outer layer, insufficient rigidity and strength of the panel structure, short service life, low fire resistance.

The inventive multilayer building panel, as well as the known one, includes an outer layer of continuous sheet material and an insulating layer containing hollow channels bonded to each other by adhesive.

The problem solved by the proposed utility model is the improvement of a multilayer building panel and the expansion of its functionality.

The technical result achieved is to increase the heat-insulating, waterproofing and frost-resistant parameters of the multilayer panel, strength, decorative appearance, to obtain a variety of wall panel finishes, building aesthetics and living comfort, to increase the stability of the structure during installation and operation, environmental friendliness, fire resistance, service life, thermal stability of the structure, energy efficiency, which leads to lower costs for heating facilities made from the proposed pa firs, reducing labor costs and installation time.

The technical result is achieved in that the panel contains an inner layer of continuous sheet material, the outer and / or inner layers are made of sphene concentrate, the insulating layer is a profiled sheet.

The technical result is also achieved by the fact that the panel contains an inner layer of solid sheet material, the outer and / or inner layers are made of sphene concentrate, the insulating layer is a profiled sheet with a heater placed in its hollow channels.

Sealing gaskets may be located between the contacting surfaces of adjacent layers. The thickness of the outer and inner layers made of sphene concentrate can be from 0.5 cm to 5 cm, width from 10 cm to 100 cm, length from 10 cm to 600 cm. Hollow channels can be made with the possibility of creating a vacuum in them.

The presence of an inner layer of continuous sheet material and the implementation of the outer and / or inner layers of sphene concentrate provides an increase in the heat-insulating, waterproofing and frost-resistant parameters of the panel, increasing the stability of the structure during installation and operation, and the thermal stability of the structure.

The composition of sphene concentrate includes oxides of iron, aluminum, magnesium, calcium, potassium, chromium, phosphorus, titanium in various proportions, which determines the strength and durability of the panels. Depending on the ratio of components, sphene sheets are painted in various colors from beige to brown, blue, pink, turquoise and many others, which allows you to get a variety of decorative finishes for both exterior and interior panels, contributes to the achievement of architectural expressiveness. Sfen is a natural material and provides the necessary sanitary and hygienic and comfortable conditions in the premises, environmental friendliness. Due to the implementation of the outer and inner (or only the outer) layers of sphene, no finishing is required, the panels do not lose their appearance, do not fade, and have high fire resistance.

The implementation of the insulating layer of the profiled sheet contributes to the improvement of thermal insulation, waterproofing and frost resistance of the panels. The hollow channels formed by the profile create air gaps (cross columns) that provide good thermal insulation, energy savings, which leads to lower costs for heating facilities made from the proposed panels.

The presence of insulation provides sound insulation (sound insulation), increases all of the above indicators.

A sealing gasket increases reliability by enhancing adhesion between layers, forming a monolithic system.

The thickness of the outer and inner layers made of sphene concentrate can be from 0.5 cm to 5 cm, width from 10 cm to 100 cm, length from 10 cm to 600 cm, which provides the necessary panel strength, structural stability during installation and operation, ease of installation.

The possibility of creating a vacuum in the hollow channels also leads to an increase in heat-insulating, waterproofing, frost-resistant and noise-insulating indicators of the panels.

Thus, the claimed combination of essential features makes it possible to obtain a new technical result: increasing heat-insulating, waterproofing and frost-resistant indicators of a multilayer panel, strength, decorative appearance, obtaining a variety of wall panel finishes, building aesthetics and living comfort, increasing the stability of the structure during installation and operation, environmental friendliness, fire resistance, service life, heat resistance of the structure, energy efficiency, which leads to a decrease the cost of heating facilities made from the proposed panels, reducing the complexity and installation time.

The inventive utility model is illustrated using the drawings, in which Fig. 1 is a general view of a multilayer building panel according to the 1st independent claim, and Fig. 2 is a general view of a multilayer building panel according to the 5th independent claim.

The multilayer building panel contains an outer layer 1 (Fig. 1) made of continuous sheet material and an insulating layer 2 containing hollow channels 3. Layers 1 and 2 are bonded to each other by adhesive 4. The panel includes an inner layer 5, also made of continuous sheet material. Layers 2 and 5 are also bonded together using adhesive 4. Both layers, outer 1 and inner 5, can be made of sphene concentrate. One outer layer 1 can be made of sphene concentrate, in this panel embodiment, the inner layer 5 can be made of such a solid material as fiberboard, chipboard, plywood, etc., which ensures a reduction in the weight of the panel. The insulating layer 2 is a profiled sheet. Between layers 1, 2 and 2, 5 can be located sealing gaskets 6. When performing the panel according to the 5th independent claim, the hollow channels 3 are filled with insulation 7 (figure 2). At the same time, there remain free hollow channels 3. Polyurethane foam, Rockwool (Rockwool), etc. can be used as insulation, depending on the purpose and operating conditions. The thickness of the outer 1 and inner 5 layers made of sphene concentrate can be from 0.5 cm to 5 cm, width from 10 cm to 100 cm, length from 10 cm to 600 cm. Hollow channels 3 can be made with the possibility of creating them vacuum.

For the production of the claimed panels, sphene concentrate (a product of processing apatitenefelin ores, titanium-containing raw materials), which is part of the tailings of mining and processing plants, is used. Various methods for processing it are known. Sphenic concentrate is melted at certain temperatures (~ 1350 ° C), poured into molds, then hardened sheets (castings) are sent for annealing. Depending on the ratio of components, various panel colors are obtained (from beige to brown, blue, pink, turquoise and others). Thus, sheet material for the claimed panels is obtained. Depending on the configuration of the bottom of the form, the surface of the sheet is smooth or corrugated. Then, a layer of adhesive, for example, an adhesive composition, is applied to the corrugations of the profiled sheet and the layers are joined together by laying gaskets, for example, from rubber. Vacuum can be created in hollow channels. When performing the panel according to the 5th independent claim, the hollow channels are filled with insulation. The thickness and size of the panels may vary depending on the purpose. The profiled sheet may have a different configuration and profile height also depending on the purpose. If necessary, panels can be assembled at the construction site. In the hollow channels, electrical cables, water, sewer pipes, heating pipes can be installed.

Using the same technology, special connecting, corner elements, column blocks and other building elements can be made. The panels can be made with the possibility of their fastening to each other by means of a lock connection. To do this, a protrusion is performed on one end of the panel, and a groove on the second. The panels are easily and firmly connected. For tightness, a seal can be installed in the groove. Using a diamond blade, you can easily cut and trim panels, cut openings of any configuration.

The inventive panels can be used for all basic elements of the house: walls, floors and floors.

Claims (8)

1. A multilayer building panel comprising an outer layer of continuous sheet material and an insulating layer containing hollow channels bonded together by adhesive, characterized in that it contains an inner layer of continuous sheet material, the outer and / or inner layers are made of sphene concentrate, the insulating layer is a profiled sheet. 2. The panel according to claim 1, characterized in that between the adjacent parts of the adjacent layers are gaskets. 3. The panel according to claim 1, characterized in that the thickness of the outer and inner layers made of sphene concentrate is from 0.5 to 5 cm, a width of 10 to 100 cm, a length of 10 to 600 cm 4. The panel according to claim 1, characterized in that the hollow channels are configured to create a vacuum in them. 5. A multilayer building panel comprising an outer layer of continuous sheet material and an insulating layer containing hollow channels bonded together by adhesive, characterized in that it contains an inner layer of continuous sheet material, the outer and / or inner layers are made of sphene concentrate, the insulating layer is a profiled sheet with a heater located in its hollow channels. 6. The panel according to claim 5, characterized in that between the contacting parts of the adjacent layers are gaskets. 7. The panel according to claim 5, characterized in that the thickness of the outer and inner layers made of sphene concentrate is from 0.5 to 5 cm, a width of 10 to 100 cm, a length of 10 to 600 cm. 8. The panel according to claim 5, characterized in that the hollow channels are configured to create a vacuum in them.