RU95005U1 - CONSTRUCTION OF WALLS FROM THREE-LAYER PANELS WITH FILLER FROM POLYURETHANE - Google Patents

Abstract

 The design of the walls is made of three-layer panels with filler and decorative trim mounted on a frame formed by metal profiles, with closed seams between the panels with stripping strips, the walls of which have a sectional view of wedge hooks, characterized in that the connection of 3-layer panels with filler is end-to-end the principle of "wedge lock", while the function of the slat strip is performed by the edge elements of the panel formed by the method of continuous rolling and pouring during the manufacture of panels, and made with one m or two protrusions (steps) on one panel and cavities of the same shape on the other panel, while the insulation is made of rigid polyurethane foam with a thickness of 40-200 mm, and the outer skin of the 3-layer panel is made of metal, flat or corrugated, with a coating.

Description

The proposed design of the utility model relates to the construction of industrial buildings and structures or storage facilities, in particular to the construction of collapsible walls of three-layer panels made of metal sheets with thermal insulation inside the panels and can be used in the construction of new structures and modernization of buildings with simultaneous thermal insulation and decoration of the exterior walls and facades.

Various methods are known from the patent literature for erecting walls or fencing by joining panels, but they are mostly complex and suggest the presence of a large number of separate elements that are interconnected during installation or are designed to connect panels made of wood or wood-fiber boards.

A known design of the facing panel with two pairs of opposed side faces. One pair of side faces has connecting elements that are made in the form of a groove and a tenon and extend along the corresponding side face, and the parts of the bounding surface of the groove and the parts of the bounding surface of the stud have a roughness in the form of gearing, which is complementary to each other sections of the bounding surfaces of the groove and tenon. When the panel is in a connected state with another identical panel, the complementary portions are adjacent to each other and are engaged with each other.

(see, for example, the patent of the Russian Federation for the invention No. 2358673, M.cl. E04F 15/02).

This design of the panels prevents the formation of gaps between the facing panels. But such a facing panel is floor-mounted and it is made mainly of solid wood, wood-fiber board or other wood material, and after processing the connected elements, for example, with polypropylene wax, it can also be made of other materials - a compact laminate, plastic or similar material. But it is problematic to use such connections on three-layer panels with a sealant, for example, polyurethane.

A known design of a wall panel used to cover a wall and / or ceiling, as well as a method of laying such panels and a method for their manufacture. Such a wall or ceiling panel, with a decorative layer, has connecting means for connecting to other panels in different positions, while the connecting means consist of a groove formed by two lips on one panel and a tongue with fixing elements on the other side of the panel, while fixing the elements are made with one or more recesses or protrusions. In the laying method in the first step, the first panel is brought into contact with the second panel, after which the panels are set at an angle with respect to each other. At least one of the panels, usually the first panel, is rotated in a second step into a common plane, thereby fixing the panels with respect to each other.

(see, for example, RF patent for the invention No. 2348774, M. class. E04F 13/10)

This design of panels also allows you to increase the operational properties of the connection panels. However, this method of connection is intended for panels made of fiberboard or wood, and is also not suitable for connecting 3-layer panels with a filler., For example, polyurethane.

To connect 3-layer panels with a filler, other panel connection designs and other methods with installation on a frame frame are used.

Collapsible walls usually have a frame frame of fixed metal profiles and, if necessary, pairs of vertical racks connected to each other by transverse elements to which panels are attached in one way or another. For aesthetic reasons or to improve the insulation of rooms, no gap should remain between two adjacent panels. Therefore, when assembling collapsible partitions and walls, a connecting profile is often used, which is installed between the outer edges of every two adjacent panels

The design of fencing or walls is known, made of three-layer facade panels with thermal insulation and decorative finishes mounted on a frame formed by metal profiles using a connecting profile made by extrusion or extrusion, which is installed between two panels and the gap between them is closed even with a different gap between the edges of the panels so that when converging panels connected by such a profile, their skew is minimal. The connecting profile has two rigid walls that are pressed against the outer edges of two adjacent panels, and the elastic element consists of two transverse jumpers that connect the inner side of the first wall to the inner side of the second wall and are made with the possibility of compression while reducing the gap between adjacent to each other the outer edges of the panels to be joined. At the same time, the outer edges of the first and second panels have beveled corners. Therefore, each side wall of the connecting profile usually has a longitudinal profiled element on the edge with which the connecting profile is pressed against the beveled corner of the outer edge of the corresponding panel. This design of the profile allows you to connect adjacent panels with different sizes of the gap between their adjacent to each other edges. The presence of a rigid spacer element in such a profile makes it possible to assemble a wall structure from the panels with an equal distance between the rows of panels and a flat external surface. For the manufacture of walls and the elastic element of the profile using various synthetic materials. The walls of the connecting profile are made of a more rigid material than its elastic element. Moreover, the elastic element is preferably made of olefin thermoplastic polymer, and the rigid walls are made of polymethyl methacrylate and polycarbonates. The connecting profile made according to this embodiment is intended primarily for connecting the outer edges of two adjacent panels lying in the same plane.

(see, for example, patent of the Russian Federation No. 2295613, M. cl. EV 2/74)

The disadvantage of this design is the complexity of manufacturing the profile elements, the presence of a large number of small parts and the relative complexity of the assembly. In addition, in the case of a small asymmetry of the transverse bridges of the elastic element, non-uniform deformation of the elastic element is possible, which can lead to a slight skew of the connected panels, which will be especially noticeable at the end of the assembly of the wall structure

Closest to the proposed utility model is the construction of the connection of the wall panels, in which facade panels are installed on the frame formed by metal profiles fixed on the wall of the building, the seams between which are closed by body straps. Each front panel is made of three layers with rectangular channels in the form of honeycombs, with a wedge protrusion in the upper part of the panel end for connection with the slat strip and with a supporting platform in the lower part of the end for fixing on the metal profiles of the frame. The front panel is made with steps along the edges of the front surface of the panel for mounting the strips flush with the front surface. The slat strip is made U-shaped with shoulders. The expanding walls of the bar are made with a bend inward with an angle of inclination to the vertical of 10-15 ° and have a sectional view of wedge hooks with the formation of a plastic hinge at the base of the bar. Facade panels and floor slats are interconnected according to the principle of a “wedge lock” embedded in embedded heat-insulating elements installed on the supporting platforms of facade panels. In this case, the insulation and embedded heat-insulating elements are made of polyethylene foam with a thickness of 35 to 40 mm, and the front panels and roofing strips are made of unplasticized polyvinyl chloride. Metal profiles have a rectangular shape and can be made of galvanized iron or stainless steel, attached to the wall of the building with anchor bolts. At the same time, such a three-layer honeycomb panel design (20-26 mm thick) makes it possible to absorb wind loads with minimal deflection with a minimum weight.

(see, for example, RF patent No. 2305736, M. C. E04F 13/08)

This method of joining three-layer panels during the construction of walls increases the thermal insulation of the outer walls and has a good appearance. The disadvantages of this design is that a large number of small parts are available and a sufficiently quick installation of the wall structure is not provided. In addition, such a panel connection is designed for a panel thickness of 20-25 mm and the need for its fastening to the wall. Without wall mounting, such a wall structure will not withstand wind loads and cannot independently exist.

The objective of the proposed design of the utility model is to create a panel connection structure in which it is easy and quick to erect and mount walls from 3-layer panels (sandwich type) without fasteners without fasteners, with high tightness and thermal insulation of rooms and buildings, having This is due to the high strength of the joints and the rigidity of the wall structure, as well as the beautiful appearance of the exterior decorative finish, which meets all modern requirements. In addition, there is no need to build additional capital walls.

This goal is achieved by the fact that during the construction of walls installed on a frame formed by metal profiles, the connection of 3-layer panels with a filler is done end-to-end according to the principle of a “wedge lock”, while the function of the slat strip is performed by the edge elements of the panel formed by continuous rolling and fillings in the process of manufacturing panels, and made with one or two protrusions (steps) on one panel and of the same shape as depressions on another panel, while the insulation (filler) is made of gesture polyurethane foam with a thickness of 40-200 mm, and the outer skin of a 3-layer panel - made of metal, flat or corrugated, coated.

The utility model is illustrated by the following drawings:

figure 1 - shows the butt connection of 3-layer panels, in the context, cross section;

figure 2 (photo) - shows a General view of the installation of the wall structure during installation of 3-layer panels on the frame.

Description of the connection design.

The design of the wall with thermal insulation (with filler) consists of a frame formed by metal rectangular profiles (see photo), fixed together, front 3-layer panels (such as a sandwich). inside with heat insulation element. The heat-insulating element (insulation, filler) is made of rigid polyurethane foam with a thickness of 40 to 200 mm, with a density of 35-45 kg / m2 The joint of 3-layer panels (such as a sandwich) is made end-to-end according to the principle of “wedge lock” with panel edge elements formed by the method continuous rolling and pouring in the process of manufacturing panels, and performed with one or two protrusions (steps) on one panel and the same shape depressions on the other panel.

The upper 1 and lower 3 layers of 3-layer panels are made of varnished galvanized steel sheets. The shape of the sheets can be flat, corrugated (micro-ribbed or ribbed). The heat-insulating element (insulation, filler) 2, 4 is made of rigid polyurethane foam with a thickness of 40 to 200 mm, with a density of 35-45 kg / m. That is, the three-layer panel is a heater (filler), edged on all sides by a metal sheet. The edge elements of the panel are formed by continuous rolling and pouring during the manufacturing process of 3-layer panels and are made with one or two protrusions (steps) on one panel and cavities of the same shape on the other panel. (See Fig. 1)

The metal profiles from which the frame is assembled have a rectangular shape and can be made of galvanized iron or stainless steel, and are interconnected using anchor bolts or by welding.

Installation of the wall structure is as follows.

Assemble a metal frame from metal profiles. Profiles are set in such a way as to create a single plane for installation. The distance between the profiles is determined by the template having the size of a 3-layer panel with thermal insulation (filler). 3-layer panels are assembled, connecting them together end-to-end according to the principle of "wedge lock".

With this design of connecting 3-layer panels, it is possible to quickly build and install not only walls from 3-layer panels (such as a sandwich), but also dividing walls, ceilings, and roofs, achieving high tightness and easy, easily using simplified technology, without fasteners thermal insulation of rooms and buildings, while having high strength joints, structural rigidity of the walls, as well as a beautiful appearance. that meets current requirements.

Claims (1)

The design of the walls is made of three-layer panels with filler and decorative trim mounted on a frame formed by metal profiles, with closed seams between the panels with stripping strips, the walls of which have the form of wedge hooks in section, characterized in that the connection of 3-layer panels with the filler is end-to-end the principle of "wedge lock", while the function of the slat strip is performed by the edge elements of the panel formed by the method of continuous rolling and pouring during the manufacture of panels, and made with one m or two protrusions (steps) on one panel and cavities of the same shape on the other panel, while the insulation is made of rigid polyurethane foam with a thickness of 40-200 mm, and the outer skin of the 3-layer panel is made of metal, flat or corrugated, with a coating.