EA020575B1 - Method for erecting outer wall of building using multilayer building panels - Google Patents

Abstract

The invention relates to construction, in particular, to methods for erecting multilayer outer walls of dwelling, social and industrial buildings and to structural elements provided therefor. A method (embodiment 1) is characterized in that a building frame, comprising pillars and ceiling slabs is pre-erected. A panel frame comprising facing lining and a steam and hydraulic insulation membrane, which is pre-assembled in the horizontal position, is installed onto the finished frame of the building with the help of fixing elements. Then a non-structural insulation material is mounted to the panel frame in the vertical position as well as an internal lining, besides the frame of the multi-layer panel is mounted to the building carcass so that the multilayer building panel during assembly protrudes outside the building frame by 1/3-1/2 of its thickness. Ends of ceiling slabs and pillars are filled with insulation material and lined by external sheets of the lining. A method (embodiment 2) is characterized in that a finished frame is fixed onto assembled multilayer structural panels. A multilayer structural panel comprises an inner carcass in the form of demountable frame consisting of vertical and horizontal ribs made from Π-shaped perforated thermo profile, non-structural heat insulation material and outer and inner sheet lining and characterized in that the Π-shaped perforated thermo panels have recesses for self-tapping screws and are connected by fixing elements (self-tapping screws), and the outer and inner lining is additionally separated from the non-structural heat insulation material by steam-hydro insulation membranes. Fibro cement sheet or glass magnesite plate or cement shaving plate or other non combustible material can be used as a material of the outer lining. As a non-structural heat insulation material a basalt heating material or mineral cotton or cellulose heat insulation cotton or different foam plastics can be used.

Description

(57) The invention relates to the field of construction, in particular to methods for erecting multilayer outer walls of residential, public and industrial buildings and to building elements intended for their erection. The method (option 1) consists in preliminarily erecting a building frame including columns and floor slabs, and installing a panel frame pre-assembled in a horizontal position, including a cladding and a steam-waterproofing membrane, onto the finished building frame, using fasteners, and then in a vertical position, non-structural insulation, inner lining are mounted to the panel frame, and the multi-layer panel frame is mounted to the building frame so that the multi-layer Ordering panel during assembly protrudes outwardly from the building frame from 1/3 to 1/2 of its thickness, and ends of the slabs and columns are laid insulation and outer sheets sutured skin. The method (option 2) is characterized in that ready-made multilayer building panels are attached to the finished frame. The multilayer building panel contains an internal frame in the form of a collapsible frame, consisting of vertical and horizontal ribs made of a U-shaped perforated thermal profile, non-structural insulation and external and internal sheet sheathing, and is characterized in that the U-shaped thermal panels have recesses for self-tapping screws and are connected by means of fasteners (self-tapping screws), and the outer and inner sheathing is additionally separated from the non-structural insulation by means of waterproofing membranes. As the material of the outer sheathing, a fiber cement sheet, or a glass-magnesite plate, or a cement-bonded chipboard, or other non-combustible materials can be used. As a material of non-structural insulation, basalt insulation, or mineral wool, or cellulose thermal insulation cotton, or various foams can be used.

The invention relates to the field of construction, and in particular to methods of erecting multilayer outer walls of residential, public and industrial buildings and to building elements intended for their construction.

Known patent The outer multilayer wall of the building and the method of its construction (see RF patent No. 2335606, IPC EV04/88, publ. 10.10.2008), in which the method of construction of the outer multilayer wall of the building includes floor installation of the outer layer of prefabricated panels, fastening the latter to the supporting structures of the building with metal ties, the sequential installation of an intermediate insulation layer from the inside of the building with the formation of a ventilated air gap and an inner layer. At the same time, the outer panel is attached from the inside of the building simultaneously or sequentially with window blocks to a preformed metal supporting frame, after which an intermediate insulation layer is installed on a metal mesh fixed to the inside of the decorative panel.

The disadvantage of this method of construction and a multilayer panel is the phased assembly of the panel directly at the installation site, which increases the complexity of the construction, as well as the use in the construction of wet processes using cement or other binders.

The closest technical solution, selected as a prototype in relation to the claimed invention according to the technical nature and the achieved result, is a frame building protected by RF patent No. 2381334, IPC Е04В 1/18, publ. 08/10/2010.

A well-known frame building containing floor slabs with consoles, columns resting on the console multilayer outer walls, including the inner, middle and facade layers, characterized in that the console is made in the form of a trapezoid, and the extension of the console is not more than the thickness of the outer wall.

The disadvantages of this solution are the installation of the outer wall of the building from elements of standard sizes that are not tied to the dimensions of the openings, which increases the time of installation of the building, as well as the use of non-standard floor slabs with consoles, which increases the cost of non-standard elements compared to standard ones, while mounting in consoles floor slabs there are cold bridges, which reduces the thermal characteristics of the building.

The problem solved by the claimed invention A method of erecting an exterior wall of a building is to reduce construction time by using prefabricated frame elements and multilayer panels during construction of a building containing window and door openings and mounted sequentially in the process of building construction according to a specific design decision. Installation is carried out due to fasteners in the form of steel sheets and impact anchors.

The specified problem can be solved in two ways.

The first way to erect the outer wall of the building can be arbitrarily called the detailed method, and it consists in the following: the frame of the walls is assembled at the construction site; Heat-insulating material, a vapor-waterproofing membrane are laid in the same place, and wall cladding plates are fixed.

The second method of erecting the outer wall of the building can be arbitrarily called the panel method, and it consists in the following: the walls are constructed from thermal panels assembled at the factory (wall elements), which either consist only of a thermo-profile frame with heat-insulating material, a vapor-waterproofing membrane and cladding panels, or they already have and door-windows, and facade coating.

The most profitable method is the assembly of wall elements at the plant, which significantly reduces the work at the construction site, provides better quality walls and makes construction work more convenient.

When using the detailed method, frame profiles are delivered to the construction site cut into design dimensions. A detailed method is used in cases where it is advisable to perform most of the work on a construction site.

The technical result obtained by using the method of erecting the outer wall of the building (option 1) using the detailed method is to increase the internal area of the building due to the fact that the multilayer panel protrudes outward of the building frame by half its thickness during installation, as well as to reduce construction time due to use in the construction of the building ready-made frame elements and technological assembly of multilayer panels containing window and door openings and mounted sequentially in the process of building construction according to a particular design solution.

The technical result obtained by using the method of erecting the outer wall of the building (option 2) by the panel method is to increase the internal area of the building due to the fact that the multilayer panel during installation protrudes outward of the building frame by half its thickness, and also reduces the construction time due to the use in the construction of the building of finished frame elements and finished multilayer panels made in exact dimensions, containing window and door openings and mounted sequentially in the process construction of the building according to a particular design solution.

The method of construction of the outer wall of the building (2 options) is illustrated by the following drawings.

- 1,020,575

FIG. 1 is a general view of a multilayer building panel; FIG. 2 - general view of the thermal profile; FIG. 3 - assembly diagram of thermal panels; FIG. 4 is a diagram of an attachment element;

FIG. 5 and 7 - installation diagrams of the panel in a fully assembled form; FIG. 6 is a partially assembled panel installation diagram; FIG. 8 and 9 - heat insulation schemes of the end of the floor panel; FIG. 10 is a diagram of a layered arrangement of panel elements.

The method of construction of the outer wall of the building (option 1) by the detailed method.

The frame can be assembled based on assembly drawings. Each frame element can have its own identification number, the assembly drawings can indicate the location of the element in the frame, as well as the necessary methods of fastening and connection.

The frame 1 is assembled on a flat horizontal surface with the help of low-headed screws 5 or rivets. The outer 9 vapor-waterproofing membrane of increased strength and the outer 7 sheathing sheet are attached to the frame.

The frame with the reinforced outer skin 7 is installed in the building’s opening on special rubber or mineral wool gaskets 16 so that the panel protrudes outward at a distance of 1/3 to 1/2 of its thickness, and is attached to the lower 15 and upper 14 floor slabs with special wedge or shock anchors 17.

After installing the frame, all the gaps between its elements are completely filled with thermal insulation 6, an internal vapor-waterproofing membrane 10 and an inner sheathing sheet 8 are installed.

The joints between the panel, floor slabs and columns are filled with elastic mastic or polyurethane foam.

The method of construction of the outer wall of the building (option 2) using the panel method.

With the method of erecting a building using the panel method, finished thermal panels are delivered to the construction site from which the walls of the building are assembled. The panels are lightweight and do not need powerful lifting equipment. The panels are mounted in such a way that the panel protrudes outward of the building frame from 1/3 to 1/2 of its thickness during installation.

The installation of the panels is as follows.

The method of attaching thermal panels to the supporting frame depends on the design and material of the frame (steel, reinforced concrete). In the general case, the thermal panels rest on the edge of the floor slab 15. It is checked for height with steel wedges.

The fastening to the columns in each case can be decided separately as part of the structural design of the building.

For fastening, hot-dip galvanized steel sheets 12 are used, which are then hidden under the leveling layer of the floor and the suspended ceiling.

Their fastening to the upper and lower ends of the panel frame occurs with self-drilling screws, at least four screws for each steel sheet (Fig. 4). Before fastening the connecting parts to the panel, they are bent according to the actual mounting tolerances.

Thermal panels are attached to the reinforced concrete floor through the connecting parts 12; most often using expansion anchors, from two to four anchors per part.

The steam-waterproofing membrane protruding on the lower edge of the thermal panel is turned to overlap, then it remains under the leveling layer of the floor.

The horizontal seams of the thermal panel adjacent to the overlap are filled with mineral wool strips and sealed with suture seals. The end face of the floor is also isolated with mineral wool and covered with a strip of wind-shelter plate (Fig. 8 and 9). If necessary, the seams between the windshields are filled with elastic mastic or polyurethane foam. The seam between the upper edge of the thermal panel and the overlap is also treated with elastic mastic or polyurethane foam.

The horizontal seams of the thermal panel adjacent to the overlap are filled with mineral wool strips and sealed with suture seals. The end face of the floor is also isolated with mineral wool and covered with a strip of wind-shelter plate (Fig. 8 and 9). For fastening the strip, galvanized self-drilling screws are used. If necessary, the seams between the windbreaks are filled with elastic mastic. The seam between the upper edge of the thermal panel and the overlap is also treated with elastic mastic.

Thermopanels are not attached to the frame stiffness by mechanical means. The vertical seam between the panel and the partition is filled with a strip of mineral wool and sealed with a seam seal. The internal angle between the panel and the partition is sealed with elastic mastic. The end walls of the partition are insulated with mineral wool and covered with a strip of windproof plate.

The vertical joint between the thermal panels is sealed with two hollow rubber seals and a strip of mineral wool.

Seals and mineral wool are attached to the side edge of the panel at the factory. Seam on

- 2 020575 the inside of the joint is filled with mastic and covered with suture tape.

On the windproof plates of the outer wall of thermal panels, a facade cladding is attached: a sublattice and metal cassettes, plasterboards, Rabitz mesh, plaster, etc. The material of the facade cladding of the outer wall of thermal panels is unlimited.

The parts connecting the thermal panels to the supporting frame of the building are hidden by a leveling layer of the floor and a false ceiling.

As a separate invention, as part of the patenting of a group of inventions, the applicant proposes for patenting a technical solution for a multi-layer building panel, which constitutes a single inventive concept with the method of erecting the outer wall of a building. The group of inventions is so interconnected that it forms a single inventive concept.

Known three-layer building panel containing an internal frame, non-structural insulation and sheet sheathing, characterized in that the internal frame is made in the form of a collapsible frame of a metal profile, to which are attached wooden beams (see RF patent No. 2245970, IPC Е04С 2/26, publ. 10.02.2005).

The disadvantage of this panel is the use in the construction of wooden beams, which reduces its fire safety and increases the complexity of assembling the frame at a construction site.

Closest to the claimed invention The multilayer building panel in terms of technical nature and the achieved result is a multilayer building panel protected by RF patent for ПМ № 55393, IPC Е04С 2/26, publ. 08/10/2006 (prototype).

Known multi-layer building panel containing an internal frame made in the form of a collapsible frame, non-structural insulation and sheet sheathing, characterized in that the frame is made of galvanized perforated thermal panels and contains guides of the Shaped profile and ribs of the C-shaped profile, thermal profiles are made with perforation. Double gypsum-fiber sheets were used as the outer skin material, fiber cement boards were used as the outer skin, mineral wool or cotton wool heat-insulating panels were used as non-structural insulation, and self-tapping screws were used as fasteners.

The disadvantages of the known solution is the mismatch of the panel fire requirements for high-rise buildings. The lack of seats in the thermal profile for fasteners does not ensure the accuracy of the assembly and the tightness of the panel due to the possibility of gaps in the assembly of the panel, which reduces its heat-shielding properties, and also increases the complexity of assembling the frame under construction conditions.

The task underlying the present invention, a multilayer building panel, is to create a multilayer building panel with improved operational properties for tightness, increase the thermal properties and fire resistance of the panel, reduce the complexity of the Assembly.

The disadvantages of the known solutions of the building panel are eliminated by the fact that in the proposed multilayer building panel containing a metal frame made in the form of a collapsible frame made of galvanized perforated thermal profiles at the attachment points, special recesses are made with holes for self-tapping screws, which allow to recess self-tapping heads when assembling metal frame. This makes it possible to make the panel assembly under construction conditions more precise, technologically advanced and fast, as well as to fasten the outer and inner sheathing sheets without gaps, thereby making the panel more airtight, improving its thermal properties.

The proposed multilayer building panel has horizontal U-shaped ribs. At the same time, the entire metal thermal profile is made with exact dimensions in the factory, taking into account the sizes of windows and doors, which makes (in comparison with the prototype) the panel more rigid, with exact geometric dimensions, with precise openings for windows and doors and allows it to be installed in the building frame with minimal gaps.

The multilayer building panel in the basic version is three-layer. Fiber cement sheet is used as the outer casing, gypsum board is used as the inner casing, and basalt insulation is used as the insulation, which improves thermal and operational properties and increases fire resistance. Compared with mineral wool, the basalt insulation during operation practically has no shrinkage, has lower water and moisture absorption, which enables it to maintain heat-insulating properties under various temperature and humidity conditions. Basalt insulation is a non-combustible material, which compares favorably with ecowool, and thereby increases the fire resistance of the panel.

Additionally, the inner sides of the panel can be sewn with a waterproofing membrane with increased strength to improve the waterproofing and windproof properties of the panel and protect the insulation from moisture.

The technical result to which the invention is directed The multilayer building panel is to create a multilayer building panel with improved operational properties for tightness, to increase the thermal properties and fire resistance of the panel - 3,020,575 li, to reduce the complexity of the assembly.

SUMMARY OF THE INVENTION A multilayer building panel is illustrated by drawings.

FIG. 1 is a general view of a multilayer building panel; FIG. 2 - general view of the thermal profile; FIG. 3 - assembly diagram of thermal panels;

FIG. 10 is a diagram of a layered arrangement of panel elements.

The multilayer building panel contains a frame 1 in the form of a frame from a thermo-profile, containing vertical 2 and horizontal 3 ribs made of a U-shaped profile. The ribs 2 and 3 of the U-shaped perforated profile have recesses 4 for self-tapping screws and are rigidly connected by means of self-tapping screws 5. The frame is filled with non-structural insulation 6. On the frame 1, outer 7 and inner 8 sheets of casing are fastened with self-tapping screws. Additionally, the inner sides of the panel can be sewn up with the outer 9 and inner 10 steam-waterproofing membranes of increased strength.

The panel can be solid or with window 11 and doorways.

For low-rise buildings, where the fire safety requirements are softer, other materials may be used in the manufacture of the panel:

as the outer sheets of cladding - cement-bonded particleboard DSP, oriented particleboard OSB (ΟδΒ), glass-magnesia plate, etc .;

as inner sheets of cladding - oriented particle board OSB (ΘδΒ), plywood, particle board, particle board, cement particle board, TsSP, asbestos-cement plate, atseid, etc .;

as insulation - mineral wool, thermal insulation cellulose wool ecowool, various foams (polystyrene, polyethylene, urea, etc.), etc.

Moreover, the insulation can be laid in a dry form, and can be poured in liquid form (such as ecowool and urea foam).

The panels can be assembled in the factory and delivered to the construction site in finished form, or they can be assembled near the installation site in whole or in part.

In the first case, first, in the horizontal position on the floor, the frame is assembled from the thermo-profile using self-tapping anodized screws, then also, using the self-tapping anodized screws, the outer skin sheets are attached first. Then the panel is turned over, the insulation is laid and the inner sheathing sheets are attached. Along the perimeter from the ends on the panel, fastening elements 12 are installed under the expansion anchors 17. The assembled panel 13 is turned into a vertical position, installed in the opening of the building so that it protrudes outward of the building frame from 1/3 to 1/2 of its thickness, and fastens along perimeter to columns and slabs 14 and 15 with spacer anchors 17.

In the second case, the frame is assembled from thermal profile 1, if necessary, an external vapor barrier membrane 9 and outer sheathing sheets 7 are attached, the panel is installed in the building’s opening on special rubber or mineral wool gaskets 16 so that it protrudes from the building frame from 1/3 to 1/2 of its thickness, and is fastened around the perimeter to the columns and floor slabs with spacer anchors 17. Then a heater 6 is laid, and, if necessary, an external vapor-waterproofing membrane 9 and inner sheets of sheath are attached to the panel wki 8.

Sealing the joints between the panel, columns and floor slabs is done with foam. The ends of the floor panels are closed with a heater 6 and are sewn up with the outer sheets of the skin 7.

Group of inventions The method of erecting the outer wall of the building (2 options) and the multilayer building panel are so interconnected that they form a single inventive concept.

Claims (4)

1. The method of construction of the outer wall of the building, in which the building frame is preliminarily erected, including columns and floor slabs, characterized in that the finished multilayer building panels are mounted on the finished frame, and the multilayer panels are mounted to the frame using fasteners in such a way that the multilayer building panel during installation protrudes outward of the building frame from 1/3 to 1/2 of its thickness, and the ends of the floor slabs and columns are laid with insulation and sutured with the outer sheathing sheets. 2. The method according to claim 1, characterized in that the building frame is prefabricated, precast-monolithic or monolithic. 3. The method according to claim 1, characterized in that the fastening elements are hot rolled steel sheets. 4. The method according to claim 1, characterized in that the multilayer building panel contains an internal frame in the form of a collapsible frame, consisting of vertical and horizontal ribs made of a shaped perforated thermoprofile, non-structural insulation and external and internal - 4,020,575 sheet sheathing, wherein the U-shaped thermopanels have recesses for self-tapping screws and are connected by fasteners, for example self-tapping screws, and the outer and inner sheaths are additionally separated from the non-structural insulation with vapor-waterproofing membranes.