BG65765B1 - Heat insulation composite panel, method for the manufacture thereof, and building structure of such panels - Google Patents

Abstract

The invention relates to heat insulation composite panel for building of walls, floors, roofing and other similar constructional structures, to a method for its manufacture and to building structuresof such panels. The panel has considerable strength and long life, enabling quick and easy assembly without any additional treatment or operations. Due to the combination of its structural elements it can be made of different sizes and configurations, also including curvilinear forms. The panel comprises heat insulation layer (2) of foam polyurethane having external (3) and internal (4) surfaces,reinforcement structure of vertical ribs (8) arranged at some distances and protection layer (9) fitted over the internal surface (4) of the heat insulation layer. On the external surface (3) an external lining layer (1) is stuck of which one of its vertical

Description

Technical field

The invention relates to a thermal insulation composite panel for the construction of walls, floors, roofs and similar construction structures for civil, industrial and other types of buildings, method for its production and structural construction of such panels.

BACKGROUND OF THE INVENTION

Known thermal insulation panel for wall construction, which includes a thermal insulation layer of polyurethane foam or foamed plastic, with a protective layer of additional insulation in the form of slabs adhered to its inner surface, as well as a reinforcing structure of vertically spaced ribs embedded in a distance, 25 insulation layer. Vertical ribs are issued outside the thermal insulation layer at a distance equal to the thickness of the insulating plates, and for connecting the panels between them in the vertical faces of the thermal insulation layer, a channel and a corresponding feather are provided for connection of the type "soil and tooth" / 1 /.

When constructing a wall of such panels, the laying of the outer lining layer as well as of the internal protective layers is carried out at the construction site. There is no possibility for the installation of the building installations in the body of the panels. This leads to considerable volume of finishing and site operations.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a thermal insulation composite panel with a wide range of applications in construction, considerable strength and durability, to allow quick and easy installation without additional processing and operations, to be able to incorporate building installations, and shaping a variety of surfaces and configurations with good aesthetic appearance. It is another object of the invention to provide a method for the manufacture of a composite panel and the construction of such panels.

The thermal insulation composite panel according to the present invention includes a foam polyurethane thermal insulation layer having an outer surface and an inner surface, a tapping structure of vertically ribbed horizontal ribs, and a protective layer disposed on the inner surface of the thermal insulation layer. An outer facing layer is glued to the outer surface of the thermal insulation layer 15, on which one vertical end and the lower horizontal end are projected away from the thermal insulation layer and the other vertical end is displaced inward by the same distance. 20 The supporting structure is fully integrated in the thermal insulation layer, with the vertical ribs fixedly interconnected with at least one horizontal rib, and the protective layer completely covering the inner surface of the thermal insulation layer. The connection between the vertical and horizontal ribs is accomplished by known in the art fasteners such as welds or bolts, or screws, etc.

0 The reinforcing structure, built entirely in the thermal insulation layer, increases the strength of the panel and its possible shapes and dimensions. The vertical ribs and horizontal ribs of which it is composed can be 35 spaced from 10 to 2000 ppm and are made of various building materials and elements, for example, hollow metal or plastic profiles, in which cables or insulation can be placed gases. Also, the 40 vertical and horizontal ribs can be made of wooden or plastic profiles or reinforcing bars.

The outer facing layer can also be made of a wide variety of building materials, such as stone-like materials / stone tiles, terracotta, earthenware, etc. / or metal profiled sheet or plating or mineral plaster or glass or polystyrene or other polymeric materials or combinations. I drink from these materials. When building a floor2

65765 Bl construction of the composite panel, the outer facing layer may be of wooden flooring and / or laminate, and / or porous rubber or other suitable flooring.

The protective layer can also be made of a wide variety of building materials, such as fire-resistant foil or coating, stone-like materials / stone tiles, terracotta, earthenware, etc. / or plaster or plaster, or gypsum, or gypsum, or glass, or a combination of these materials.

In one preferred embodiment of the thermal insulation composite panel, the supporting structure is reinforced by an additional supporting structure mounted to the protective layer, which consists of two vertical columns of generally rectangular cross-section, each having an outer wall, a rear wall and front wall. The vertical columns are respectively arranged on the two vertical contours of the thermal insulation layer so that their outer walls and the vertical faces of the thermal insulation layer lie in one plane. The vertical columns are fixed to the vertical ribs of the supporting structure by self-tapping screws or bolts, and at least two transverse supporting elements for fixing an inner lining layer are fixed to the front walls of the columns. The vertical columns, perpendicular to the outer walls, are drilled through distance mounting holes for connection to the adjacent panels, as well as special holes for the passage of the respective building installations. The connection between the vertical columns and the transverse supporting elements is accomplished by known in the art fasteners such as welds or bolts or screws, etc.

Different versions of the vertical columns are possible. In one preferred embodiment, the vertical columns are of a shaped profile of metal or plastic having an outer wall and a rear wall and a front wall bent thereon, the U-shaped profiles being arranged respectively on the two vertical contours of the thermal insulation layer with its bent walls inwards. that their outer walls and the vertical faces of the thermal insulation layer lie in one plane. The U-shaped profiles are secured to the vertical ribs of the retaining structure with their rear walls through self-tapping screws or bolts, and the mounting holes and special holes are drilled into the outer walls. The curved walls of the U-shaped profiles may have the same or different width. If necessary, a locking hole can be cut in the upper and / or lower end of the walls of the U-shaped profiles for mounting the panel to the guide rails.

In other possible embodiments, the vertical columns are of square or rectangular wooden sections or of metal sections forming a box-shaped cross-section.

The inner lining layer, and in the case of a composite panel with a supporting structure, may be of stone-like materials or plasterboard, or plaster, or gypsum board, or gypsum fiber, or glass, or polystyrene, or polycarbonate, or other polymeric or textile materials or leather, as well as a combination of these materials.

The thermal insulation composite panel according to the present invention, in all its variants, has a high degree of completeness and, due to the combination of its structural elements, can be produced in various sizes and configurations, including curvilinear shape. Door and / or window openings may be formed in the panel by means of prefabricated profiles. These openings can also have different shapes and sizes.

The method of manufacturing a thermal insulation composite panel according to the invention involves the following sequence of operations:

- in the matrix (not shown) the outer facing layer is arranged with its face surface to the bottom of the matrix;

- the protective cover is applied to the cover of the die and bolted to it by the supporting structure of vertical ribs, fixedly interconnected with at least one horizontal rib;

- In the heated to 50 ° C matrix, the thermal insulation layer of polyurethane foam with a design thickness is injected, the lid of the matrix is closed and strengthened;

after curing of polyurethane foam for

65765 Bl for 5 to 30 minutes, the die is opened and the panel is removed.

When forming openings in a thermal insulation composite panel, the method involves the following sequence of operations:

- in the matrix (not shown) the outer facing layer is arranged with its face surface to the bottom of the matrix;

- the protective cover is applied to the die cover and bolted to it by the reinforcing structure in which door openings and / or windows are formed by means of pre-formed limiting profiles;

- In the heated to 50 ° C matrix, the thermal insulation layer of polyurethane foam with a design thickness is injected, the lid of the matrix is closed and strengthened;

- after curing the polyurethane foam for a period of 5 to 30 minutes, the die is opened and the panel is removed.

The invention also relates to a building structure consisting of interconnected thermal insulation composite panels, each of which is composed of a thermal insulation layer of polyurethane foam with an outer lining adhered thereto, to which one vertical end and a lower horizontal end are projected at a distance beyond the thermal insulation layer and the other vertical end is displaced inward by the same distance. In the thermal insulation layer there is a reinforcing structure of vertical ribs arranged in distance connected with horizontal ribs. The protective layer is located on the inner surface of the thermal insulation layer. The supporting structure is reinforced by a supporting structure mounted to the protective layer, the supporting structure being composed of two vertical columns with a generally rectangular cross-section. Each vertical column has an outer wall, a rear wall and a front wall, the columns being respectively arranged on the two vertical contours of the thermal insulation layer so that their outer walls and the vertical faces of the thermal insulation layer lie in one plane. The vertical columns are secured to the vertical ribs of the supporting structure by self-tapping screws or bolts, and fixed to the front walls of the columns fixed transverse support elements. The vertical columns of the adjacent panels are connected to each other by bolts driven through the mounting holes, and in other special openings, construction installations are made. An internal lining layer is attached to the transverse support members and a seal is inserted in the joints between the panels. Different versions of vertical columns are possible - from U-shaped profiles or from wooden profiles or from metal profiles with box-shaped cross-sections.

In one embodiment of the building structure, an additional insulation made of heat-insulating and / or sound-proofing and / or fire-resistant material is installed in the gap between the two vertical columns and the transverse supporting elements of each panel.

The thermal insulation composite panel of the present invention is compact, with a wide range of applications in construction. It has considerable strength and durability, allows for quick and easy installation without additional machining and operations. The dimensions of the panel can be determined in such a way that the construction materials and linings are embedded in the panel with their factory blanks, thus achieving a waste-free production technology.

The configuration of the thermal insulation composite panel allows the formation of both planar and curved surfaces, as well as the slopes required for accurate assembly. Various building structures can be constructed from it, such as exterior and interior walls, floors, roofs and the like.

Explanation of the annexed figures

The invention is illustrated by the exemplary embodiments shown in the accompanying drawings, wherein:

Figure 1 is a view from the inside of a thermal insulation composite panel according to the invention;

FIG. 2 is a plan view of the interior of a thermal insulation composite panel with a support structure, in FIG.

65765 Bl which vertical columns are of U-shaped profiles with different widths of curved walls;

FIG. 2a is an inside view of a thermal insulation composite panel in an embodiment with a supporting structure in which one vertical column is of box-like cross-section and the other is of U-shaped profile with equal width of bent walls;

Figure 2b is a view from the inside of a thermal insulation composite panel in an embodiment with a support structure in which the two vertical columns are of wooden profile with a rectangular cross section] Figure 3 is a view from the inside of a thermal insulation composite panel with a shaped door opening;

FIG. 4 is an exterior view of a thermal insulation composite panel with a molded door opening; FIG.

Figure 5 is a partial view of the lower end of a vertical column with a cut-out opening;

Figure 6 is a partial view of the upper end of a vertical column with a cut-out opening;

Figure 7 is an exterior view of a thermal insulation composite panel with a molded window opening;

8 is a partial view from the outside of a curved-shaped composite panel;

Figure 9 is a partial cross-section through a building structure made up of thermal insulation composite panels;

Figure 10 is a view of a wall made of thermal insulation composite panels.

Examples of carrying out the invention

The thermal insulation composite panel shown in FIG. 1 is composed of a thermal insulation layer 2 of polyurethane foam having an outer surface 3 and an inner surface 4. An outer facing layer 1 is adhered to the outer surface 3, to which one vertical end 5 and a lower horizontal end 6 are projected apart outside the thermal insulation 2. and the other vertical end 7 is displaced inward by the same distance. The reinforcing structure of vertical spaced ribs 8 is embedded entirely in the thermal insulation layer 2, with the vertical ribs 8 fixedly interconnected with at least one horizontal rib. The protective layer 9 completely covers the inner surface 4 of the thermal insulation layer 2. The outer lining layer 1 is made of stone-like materials / stone tiles, terracotta, faience, etc. /. The vertical ribs 8 and the horizontal ribs are made of hollow metal or plastic profiles. The inner lining layer 9 is made of plasterboard glued to a protective layer of fireproof foil.

Figures 2.2a and 2b show embodiments of a thermal insulation composite panel for wall construction, in which the supporting structure is reinforced by an additional supporting structure mounted to the protective layer 9. According to the invention, the supporting structure consists of two vertical columns of A U-shaped profile 10 having an outer wall 11, a curved rear wall 12 and a curved front wall 13. The U-shaped profiles 10 are arranged respectively on the two vertical contours of the thermal insulation layer 2 with their curved walls inwards because their outer walls 11 and the vertical faces 20 of the thermal insulation layer 2 lie in one plane. The rear curved walls 12 are secured to the vertical ribs 8 of the retaining structure by self-tapping screws, and at the front curved walls 13 are fixed at a distance at least two transverse support members 18 to secure the inner lining layer. In the walls 11 of the U-shaped profiles 10 are drilled through distance mounting holes 14 for connection with adjacent panels, as well as special holes 15 for installation. At the lower end of the walls 11, a locking hole 16 is cut out for mounting the panel to a guide guide 21 fixed to the floor structure. The shaped profiles 10 are made of cold-formed metal profiles with different widths of curved walls. The transverse support members 18 are metal and therein, holes are drilled through them for fixing an inner lining layer.

In FIG. 2a shows an embodiment of a supporting structure in which one vertical column is box-shaped and the other is of U-shaped profile with equal width of bent walls.

65765 Bl

2b shows an embodiment of a supporting structure in which the two vertical columns are of wooden profile with a rectangular cross-section.

In FIG. 3 is an embodiment of a thermal insulation composite panel for wall construction, as in FIG. 2, in which a door opening is formed, and in FIG. 7 - panel in which a window opening is formed.

Figures 4 and 7 show embodiments of the outer lining layer 1, in which a combination of plinth of terracotta tiles and fibranes is made. To the front curved walls 13 of the N-shaped profiles 10 is attached an inner lining layer 19 of drywall.

In FIG. 8 is a partially insulated composite panel manufactured in wavy form. It is especially suitable for interior walls.

The construction of interconnected thermal insulation composite panels according to the invention is shown in cross section in FIG. 9. Each panel includes a thermal insulation layer 2 of polyurethane foam with an outer lining 1 attached thereto, at which one vertical end 5 and the lower horizontal end 6 are projected away from the thermal insulation layer 2 and the other vertical end 7 is displaced inward by the same distance . The reinforcing structure built into the thermal insulation layer 2 is of vertical ribs 8, spaced apart, connected to horizontal ribs. The protective layer 9 is located on the inner surface 4 of the thermal insulation layer 2. The supporting structure consists of two vertical posts of the U-shaped profile, the U-shaped profiles 10 being respectively arranged on the two vertical contours of the thermal insulation layer 2 with their bent edges inwards. so that their walls 11 and the vertical faces 20 of the insulation layer 2 lie in one plane. The rear curved walls 12 of the U-shaped profiles 10 are fixed to the vertical ribs 8 of the supporting structure, and at the front of the curved walls 13 are fixed fixed at a distance at least two transverse supporting elements 18. The U-shaped profiles 10 of the adjacent panels are connected through bolts through mounting holes

14, and through special openings 15 were erected building installations. An inner lining layer 19 is attached to the transverse support elements 18, and a seal 22 is inserted in the joints between the panels. In the space between the two U-shaped profiles 10 and the transverse support elements 18, an additional insulation 17 of thermal insulation and / or sound insulation is mounted on each panel. , and / or fire resistant material.

In FIG. 10 shows, in part, a wall made up of thermal insulation composite panels, in which each row panel is mounted between guide rails 21 by means of locking openings 16 corresponding to the contour of guide rails 21, with the panels fixed to each guide 21. The floor structures are concreted metal plates 23 in the places of the vertical columns on which the guides 21 and the vertical columns are fixed.

Claims (18)

Claims A thermal insulation composite panel comprising a thermal insulation layer (2) of polyurethane foam having an outer surface (3) and an inner surface (4), supporting a structure of spaced vertically ribs (8) and a protective layer (9) disposed on the inner surface (4) of the thermal insulation layer (2), characterized in that an outer facing layer (1) is affixed to the outer surface (3) to which one vertical end (5) and the lower horizontal end (6) are projected at a distance outside the thermal insulation layer (2) and the other vertical k ai (7) is displaced inward by the same distance, in which the supporting structure is fully integrated into the thermal insulation layer (2), the vertical ribs (8) being fixedly interconnected with at least one horizontal rib, and the protective layer (9) completely covers the inner surface (4) of the thermal insulation layer (2). A thermal insulation composite panel according to claim 1, characterized in that the supporting structure is reinforced by an additional supporting structure mounted to the protective layer (9), which consists of two vertical columns (10) of rectangular cross section, all 65765 of which there is an outer wall (11), a rear wall (12) and a front wall (13), the vertical columns (10) being respectively arranged on the two vertical contours of the thermal insulation layer (2) such that their outer walls ( 11) and the vertical faces (20) of the thermal insulation layer (2) lie in a single plane, with the vertical columns (10) fixed to the vertical ribs (8) of the supporting structure by self-tapping screws or bolts, and to the front walls (13) are fixed at a distance of at least two transverse support members (18) for inner faces a layer, such as in the vertical columns (10) perpendicular to the outer walls (11), holes are drilled through the distance (14) for connection with the adjacent panels, as well as special holes (15) for the installation of installations. Composite thermal insulation panel according to claim 2, characterized in that the vertical columns (10) are of U-shaped metal or plastic profile, having an outer wall (11) and a back wall (12) and a front wall (bent) thereto. 13), the U-shaped profiles being respectively arranged on the two vertical contours of the thermal insulation layer (2) with their bent walls inwards so that their outer walls (11) and the vertical faces (20) of the thermal insulation layer (2) lie in one a plane in which the U-shaped profiles are fixed to the vertical ribs (8) of the supports th frame with their back walls (12) by self-tapping screws or bolts, and mounting holes (14) and separate apertures (15) are drilled in the outer walls (11). A thermal insulation composite panel according to claim 2, characterized in that the vertical columns (10) are of square or rectangular wooden sections or of metal sections forming a box-like cross-section. 5. Thermal insulation composite panel according to claim 3, characterized in that a locking hole (16) is cut in the upper and / or lower end of the outer walls (11) of the U-shaped profiles for mounting the panel to a guide guide (21 ). 6. Thermal insulation composite panel according to claims 1 and 2, characterized in that the outer facing layer (1) is made of stone-like materials or a metal profiled sheet or a plating or mineral plaster or glass or polystyrene or other polymeric materials, or a combination of these materials. Composite thermal insulation panel according to claims 1 and 2, characterized in that the vertical ribs (8) and the horizontal ribs of the supporting structure are made of hollow metal or plastic profiles and are spaced 10 to 2000 mm apart. Composite thermal insulation panel according to claims 1 and 2, characterized in that the vertical ribs (8) and the horizontal ribs of the supporting structure are made of wooden profiles or reinforcing bars. 9. Insulation composite panel according to claim 1, characterized in that the protective layer (9) is made of fire-resistant foil or coating, and / or stone-like materials, or planking, or plaster, or gypsum cardboard, or gypsum or glass. , or a combination of these materials. Composite thermal insulation panel according to claims 1 and 2, characterized in that the outer lining layer (1) is made of wooden flooring and / or laminate and / or porous rubber. Thermal insulation composite panel according to claim 2, characterized in that the protective layer (9) is made of a fire-resistant foil or coating. Thermal insulation composite panel according to claim 2, characterized in that the inner lining layer (19) is made of stone-like materials or plaster or plaster or gypsum board or gypsum fiber or glass or a combination of these materials. 13. Thermal insulation composite panel according to claims 1 and 2, characterized in that its cross-section has a curvilinear shape. Composite thermal insulation panel according to claims 1 and 2, characterized in that door openings and / or windows are formed therewith by means of pre-formed restrictive profiles. 15. A method of manufacturing a thermal insulation composite panel according to claim 1, ha 65765 Bl characterized by the following sequence of operations: - in the matrix (not shown) the outer facing layer (1) is arranged with its face surface towards the bottom of the matrix; - a protective layer (9) is applied to the cover of the die and bolted to it by the supporting structure of vertical ribs (8) fixedly interconnected by at least one horizontal rib (9); - in the matrix heated to 50 ° C, a thermal insulation layer (2) of foamed polyurethane with a design thickness is sprayed, the matrix cover is closed and strengthened; - after curing the polyurethane foam for a period of 5 to 30 minutes, the die is opened and the panel is removed. A method of manufacturing a thermal insulation composite panel according to claim 15, characterized in the following sequence of operations: - in the matrix / not shown / is arranged the outer facing layer (1) with its face surface to the bottom of the matrix; - a protective layer (9) is applied to the cover of the die and a reinforcing structure is secured to it by means of a volt connection, in which door openings and / or windows are formed by means of pre-formed limiting profiles; - in the matrix heated to 50 ° C, a thermal insulation layer (2) of polyurethane foam with a design thickness is injected, the lid of the matrix is closed and strengthened; - after curing the polyurethane foam for a period of 5 to 30 minutes, the die is opened and the panel is removed. 17. Construction structure of interconnected thermal insulation composite panels, characterized in that each composite panel consists of a thermal insulation layer (2) of polyurethane foam with an outer facing layer (1) attached to it, with one vertical end (5). and the lower horizontal edge (6) are projected a distance beyond the thermal insulation layer (2) and the other vertical edge (7) is displaced inward at the same distance; embedded in the thermal insulation layer (2) a reinforcing structure of spaced apart vertical ribs (8) connected to horizontal ribs; a protective layer (9) disposed on the inner surface (4) of the thermal insulation layer (2) and a supporting structure mounted to the protective layer (9) which consists of two vertical columns (10) of rectangular section, each of which has an outer a wall (11), a back wall (12) and a front wall (13), the vertical columns (10) being respectively arranged on two vertical contours of the thermal insulation layer (2) such that their outer walls (11) and the vertical faces (20) ) of the thermal insulation layer (2) lie in one plane, with the vertical columns (10) attached to vertices the mud ribs (8) of the supporting structure by means of self-tapping screws or bolts, and on the front walls (13) are fixed fixedly spaced laterally by supporting elements (18), with the vertical columns (10) of the adjacent panels being interconnected by means of bolts drawn through installation openings (14), and in special openings (15), through-the-wall installations are made, whereby an inner lining layer (19) is fixed on the transverse supporting elements (18) and a seal (22) is inserted into the joints between the panels. A building structure according to claim 17, characterized in that an additional insulation (17) is provided in the gap between the two vertical columns (10) and the transverse supporting elements (18), made of thermal insulation and / or sound insulation, and / or fire resistant material.