RU2485260C1 - Multilayer construction panel - Google Patents

Abstract

FIELD: construction.SUBSTANCE: multilayer construction panel comprises an inner frame made in the form of a collapsible frame, made from galvanised perforated thermal profiles, made of lower and upper guides of a "?"-shaped profile with edge bends made towards one side, between which there are vertical ribs of a C-shaped profile arranged in a row at the distance from each other in longitudinal direction of the guides and rigidly connected to them by means of fastening elements, and also comprises a sheet lining, and in the inner cavity there is a non-structural insulant arranged, the external casing of the panel surface is made in the form of a fire-resistant air-permeable material arranged along its outer side, adjoining the vertical ribs of the C-shaped profile, and rigidly pressed with grating, made of rigidly connected to each other horizontal and vertical- shaped profiles, at the same time the grating is arranged aflush with the panel contour or as protruding, with a rigidly fixed finishing facade layer along the entire outer surface of the panel. In the panel there are window and/or door openings formed by "?"-shaped and C-shaped profiles. The protruding part of the grating is connected to a joint angle. Along the lower side of the panel there is a sealing gasket arranged. Along upper and/or lateral sides of the panel there is a compensating gasket. The fire-resistant air permeable material is represented by cement-magnesium slabs with perforation, or steel sheets with an anti-corrosion coating with perforation.EFFECT: improved operational capabilities due to improved environmental capability, increased fire resistance, tightness, thermal properties, increased strength, reliability, durability and universality.12 cl, 3 dwg

Description

The invention relates to the field of construction and can find its application in the construction of one and multi-storey buildings for residential, public, household, social, cultural, domestic and industrial purposes with a frame, wall, panel, frame-wall and combined structural system of any structural material (steel , reinforced concrete, steel fiber concrete, porous structural concrete, wood, brick, etc.), or combinations thereof.

A multi-layer wall heat-insulating panel with a factory-ready ventilated facade “Roslav” is known, comprising a sandwich panel including a frame filled with insulation, while it is equipped with load-bearing elements — vertical profiles fixed to the frame so that they protrude beyond the upper end of the panel sandwich, and facade plates mounted on profiles (patent No. 102646, IPC E04F 13/07, publication 2011).

The disadvantage of this panel is the limited use of the panel only on consoles reinforced concrete floors, as well as the large dimensions that complicate the installation and transportation of panels. Not all panel mounts are protected by flame retardant materials.

Known multi-layer building panel containing an internal frame in the form of a collapsible frame, consisting of horizontal and vertical ribs made of a U-shaped perforated thermal profile, non-structural insulation, external and internal sheet skin, and 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 claddings are additionally separated from the non-structural heater by waterproofing embranami (patent number 102027, IPC E04S 2/26, published in 2011).

The disadvantage is the reduced strength and stiffness of the panels due to the use of U-shaped profile as stiffeners. Not all panel mounts are protected by flame retardant materials. The fastening of the elements of the facade system through the outer sheathing is complicated by the inability to detect and verify the attachment point to the profile and can only be done by preliminary marking. At the same time, the interlayer from the material of the outer skin between the fasteners of the facade system and the supporting U-shaped thermoprofile does not provide sufficient strength and rigidity of fastening under long-term exposure to dynamic loads caused by wind and thermal interactions. Such fastening options are not provided by any fastening system due to the huge difference in hardnesses of mating materials and are associated with high risks of shear and collapse of the facade system. The fastening of the facade system directly to the outer skin material is even less durable.

Closest to the claimed invention in technical essence and the achieved result, selected as a prototype, is a multilayer building panel, protected by RF patent for PM No. 55393, IPC E04C 2/26, publ. 08/10/2006

Known multi-layer building panel contains an internal frame made in the form of a collapsible frame, non-structural insulation and sheet sheathing. The frame is made of galvanized perforated thermal profiles and contains the lower and upper guides of the U-shaped profile with bends of the edges made in one direction. Between them, vertical ribs of a C-shaped profile are installed, arranged in a row at equal distances from each other in the longitudinal direction of the guides and rigidly connected to them by means of fasteners. Perforation of thermal profiles is made in the form of elongated holes located in the longitudinal direction of the profiles. Double gypsum-fiber sheets were used as the material of the inner lining, fiber-cement plates were used as the outer lining, heat-insulating, mineral-wool or cellulose heat-insulating plates were used as the material of the non-structural insulation.

The disadvantage is the lack of movement of water vapor from the center of the panel into the environment, which reduces the performance of non-structural insulation due to the constantly accumulating condensate inside the panel caused by temperature changes, significantly reducing its service life. 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. Combustible materials are used as the material of the external and internal cladding, which does not meet the fire-fighting requirements for high-rise buildings.

The objective of the invention was to increase operational capabilities by improving environmental friendliness by moving convection flows from the interior of the panel into the environment, increasing fire resistance, tightness, thermal properties of the panel, reducing the complexity of the assembly, increasing strength, reliability, durability and versatility.

-образного профиля, жестко соединенного с горизонтальным

-образным профилем, при этом обрешетка выполнена заподлицо с контуром панели или выступающей, с жестко закрепленной на ней отделочным фасадным слоем по всей внешней поверхности панели, причем направляющие П-образного профиля и ребра С-образного профиля выполнены с формованными углублениями, размещенными друг против друга в местах их пересечения, а в формованных углублениях направляющих П-образного профиля выполнены одно или несколько сквозных отверстий, при этом внутренняя обшивка панели содержит один или несколько слоев листового материала с расположенной под первым слоем листового материала с внутренней стороны панели пароизоляционной пленкой, а по верхней и/или боковым сторонам по контуру панели установлены элементы пожаробезопасного крепления, выполненные в виде Г-образных уголков, каждый из которых расположен за внутренней обшивкой, и при этом одна полка уголка жестко закреплена на С-образном или П-образном профиле, а вторая полка развернута вовнутрь панели и предназначена для анкерного крепления. Нижний П-образный профиль также предназначен для анкерного крепления.This is achieved by the fact that in a multilayer building panel containing an internal frame made in the form of a collapsible frame made of galvanized perforated thermal profiles, consisting of lower and upper guides of a U-shaped profile with bends of edges made in one direction, between which vertical ribs are installed C-shaped profile located in a row at a distance from each other in the longitudinal direction of the guides and rigidly connected with them by means of fasteners, and also contains a sheet iveka, and non-structural insulation is placed in the inner cavity, according to the invention, the outer skin of the panel surface is made in the form of a fire-resistant breathable material placed on its outer side adjacent to the vertical ribs of the C-shaped profile, and pressed by a crate consisting of a vertical

-shaped profile rigidly connected to horizontal

-shaped profile, while the crate is flush with the contour of the panel or protruding, with a finishing facade layer rigidly fixed on it along the entire outer surface of the panel, and the guides of the U-shaped profile and the ribs of the C-shaped profile are made with molded recesses placed against each other in the places of their intersection, and in the formed recesses of the guides of the U-shaped profile, one or more through holes are made, while the inner paneling contains one or more layers of sheet metal Series with a vapor barrier film located under the first layer of sheet material on the inside of the panel, and fireproof fasteners made in the form of L-shaped corners, each of which is located behind the inner lining, are installed on the upper and / or lateral sides of the panel, and at the same time one shelf of the corner is rigidly fixed on a C-shaped or U-shaped profile, and the second shelf is turned inside the panel and is designed for anchoring. The lower U-profile is also designed for anchoring.

The panel has window and / or doorways formed by U-shaped and C-shaped profiles.

The protruding part of the crate is connected to the docking corner.

A gasket is located on the underside of the panel.

A compensating gasket is located on the top and / or sides of the panel.

The lower and upper guides and vertical ribs are factory marked.

As fasteners for profiles, galvanized self-tapping screws and / or bolt joints are used.

As fasteners for the battens, galvanized self-tapping screws are used.

As a flame-retardant breathable material, non-combustible fiberglass material of the Izolteks-NG or Tend-KMO type, or fiber cement boards, were used.

Cement-magnesium perforated plates or steel sheets with perforation anticorrosive coating are used as fire-resistant breathable material.

Fireproof and / or moisture resistant plasterboard sheets, or glass-magnesite sheets, or steel profiled sheets are used as inner sheet cladding.

As a material of non-structural insulation, a heater based on basalt fiber is used.

-образными профилями обрешетки, заключается в осуществлении конвекционного воздухообмена между неконструкционным утеплителем, расположенным внутри панели под воздухопроницаемым материалом и внешней атмосферой, доступ к которой осуществляется через вентилируемый зазор, образуемый прогонами

-образных профилей обрешетки и элементами фасадной отделки. За счет этого из неконструкционного утеплителя постоянно выводится влага, что значительно улучшает теплоизоляционные свойства панели. При возрастании влажности утеплителя на 2% коэффициент теплопроводности увеличивается на 20% и более. Также уменьшение влажности неконструкционного утеплителя позволяет вынести «точку росы» максимально близко к внешней поверхности панели, что в свою очередь исключает намокание неконструкционного утеплителя и внутренней обшивки, образование плесени и грибков во внутренних помещениях здания, уменьшает возможность проседания неконструкционного утеплителя и образования «мостиков холода», дает возможность использования утеплителя меньшей плотности в условиях больших ветровых воздействий в многоэтажном строительстве, значительно повышает долговечность всей конструкции. Применение огнестойких воздухопроницаемых материалов пористой структуры из стекловолокна «Изолтекс-НГ», или «ТЕНД-КМО», или фиброцементных плит, или цементо-магниевых плит с перфорацией, или стальных листов с антикоррозионным покрытием с перфорацией позволяет избежать распространения пожаров по внешней поверхности зданий, что делает ее пожароустойчивой и повышает надежность конструкции.The technical result from the execution of the outer skin in the form of a fire-resistant breathable material of a porous structure placed on the outer side of the panel surface or with perforation rigidly pressed by horizontal and vertical intersecting each other

-shaped profiles of the crate, consists in convection air exchange between the non-structural insulation located inside the panel under the breathable material and the external atmosphere, which is accessed through a ventilated gap formed by the runs

-shaped crate profiles and facade elements. Due to this, moisture is constantly removed from the non-structural insulation, which significantly improves the thermal insulation properties of the panel. With an increase in insulation moisture by 2%, the coefficient of thermal conductivity increases by 20% or more. Also, a decrease in the humidity of the non-structural insulation allows the dew point to be brought out as close to the outer surface of the panel as possible, which in turn eliminates wetting of the non-structural insulation and inner lining, the formation of mold and fungi in the interior of the building, reduces the possibility of subsidence of the non-structural insulation and the formation of "cold bridges" , makes it possible to use a heater of lower density in conditions of large wind impacts in multi-storey construction, significantly yshaet durability of the whole structure. The use of flame-retardant breathable materials of a porous structure made of fiberglass Izolteks-NG, or TEND-KMO, or fiber cement boards, or cement-magnesium plates with perforation, or steel sheets with a corrosion-resistant coating with perforation helps to prevent the spread of fires on the outer surface of buildings, which makes it fireproof and increases the reliability of the design.

The technical result from the execution of the lathing flush with the contour of each panel provides the ability to install the panel between the structural elements of the floors, while installing the panel both flush with the external contour of the floor and recessed or protruding relative to the edge of the floor, which allows to increase the universality of its application and makes it possible to install it, including in the panels between the rooms and the balcony, the fencing of balconies, loggias, etc.

-образного профиля, соединенного со стыковочным уголком, позволяет осуществить надежное соединение с соседними панелями здания без передачи нагрузки от верхних панелей на нижние.The technical result from the implementation of the upper part of the lath serving, namely its vertical

-shaped profile connected to the docking corner, allows for reliable connection with adjacent panels of the building without transferring the load from the upper panels to the lower ones.

The technical result from the use of molded recesses with a round base in guides and ribs with through holes only in U-shaped guides allows you to cut the fastener into the wall without a hole, while forming deep grooves that increase the strength of the connection, and mutually reciprocal molded recesses increase the strength of the connection profiles shear, allow you to hide the heads of the fasteners in the body of the panel, increase the accuracy of positioning of the frame structure elements, provide tight the joining of the cladding layers to the frame elements and, as a result, reduced labor costs, time for installation of multilayer building panels and increased tightness.

The technical result from the installation of the inner sheet sheathing in the form of fire-resistant drywall and / or moisture-resistant drywall sheets, or glass-magnesite sheets, or steel profiled sheets with a vapor barrier film under the first layer on the inside of the panel allows you to prevent moisture from entering the building on non-structural insulation, which increases its durability .

The technical result of placing on the top and / or sides of the panel the L-shaped corners located behind the fireproof inner lining allows you to hide them inside the panel. In the event of a fire hazard, they will not undergo combustion, which will avoid the collapse of the frame and increase the reliability of the structure.

The technical result from the installation of non-structural insulation in the form of hard mineral wool basalt fiber slabs installed in a spacer prevents premature re-compaction and loss of its geometric shape, and thus increases its durability.

The technical result from the installation of a compensating gasket is to ensure a tight abutment of the panel to the elements of the supporting structures.

The technical result from the installation of the gasket is to protect against the penetration of external air into the panel, which increases its tightness.

The advantage of the proposed multilayer building panel is that its design allows you to separate the manufacturing processes of panel elements and assembly. By reducing assembly units and ensuring high accuracy of panel elements, labor costs for panel assembly are reduced.

The invention is illustrated by drawings.

Figure 1 is a General view of the panel from the outside.

Figure 2 - axonometric image of the panel.

Figure 3 is a perspective view of a panel with a protruding crate.

-образного профиля, жестко соединенного с вертикальными ребрами 4, заклепками и/или оцинкованными самонарезающими винтами 15 и вертикального 16

-образного профиля, жестко соединенного заклепками и/или оцинкованными самонарезающими винтами 15 с горизонтальным профилем 14. К вертикальным 16

-образным профилям жестко крепится отделочный фасадный слой 17 панели. Между воздухопроницаемым материалом 12 и отделочным фасадным слоем 17, благодаря использованию в качестве проставки между ними взаимно пересекающихся профилей 14, 16 образуется вентилируемый зазор, позволяющий внутренней полости панели сообщаться с внешней средой через огнестойкий воздухопроницаемый материал 12. Обрешетка может быть выполнена или заподлицо с контуром панели, или с выступающей частью 18 над корпусом. В этом случае ее выступающая часть 18 соединена со стыковочным уголком 19, жестко закрепленным на верхней направляющей 2. По верхней 20 и/или боковым сторонам 21 контура панели за внутренней огнестойкой обшивкой установлены Г-образные уголки 22, одна полка 23 которого жестко закреплена на направляющих 1, 2 или ребрах 4, а вторая полка 24 развернута вовнутрь панели. На ней установлено анкерное крепление 25. На нижнем 1 П-образном профиле установлено анкерное крепление 25. По нижней стороне 26 панели расположена уплотнительная прокладка 27. По верхней стороне 20 и/или боковым сторонам 21 панели установлена компенсирующая прокладка 28. Нижние и верхние направляющие 1, 2 и вертикальные ребра 4 выполнены с заводской маркировкой. В панели выполнены оконные 29 и/или дверные проемы, образованные 1, 2 П-образными и 4 С-образными профилями.The multilayer building panel consists of a frame in the form of a detachable frame containing the lower 1 and upper 2 guides of the U-shaped profile with bends of 3 edges made in one direction. Between the guides 1 and 2, vertical ribs 4 of the C-shaped profile are installed, arranged in a row at a distance from each other in the longitudinal direction of the galvanized guides 1 and 2. The guides 1, 2 and the vertical ribs 4 are made with molded recesses 5 placed opposite each other in places of their intersection. Only in the formed recesses 5 of the guides 1, 2 are one or more through holes 6. The vertical ribs 4 and the guides 1, 2 are connected by means of galvanized self-tapping screws 7 and / or bolted joints. The guides 1, 2 and vertical ribs 4 are made of galvanized thermal profiles with perforation 8 in the form of elongated holes located along the profiles. The frame together with the guides 1, 2 and the ribs 4 forms the inner frame of the panel. The internal cavity is filled with non-structural insulation 9 in the form of hard mineral wool basalt fiber slabs, installed by surprise. The inner sheathing sheets are attached to the inner frame, consisting of one or more layers of the sheet material 10 in the form of fire-resistant and / or moisture-resistant plasterboard sheets, or glass-magnesite sheets, or steel profiled sheets. A vapor barrier film 11 is located under the first layer of sheet material on the inside of the panel. The outer skin consists of a fire-resistant breathable material 12 of a porous structure, for example, fiber cement boards, or non-combustible fiberglass material Izolteks-NG, or Tend-KMO, or cement -magnesium plates with perforation 13, or perforated steel sheets with anti-corrosion coating. Perforation 13 allows for air exchange. Fire-resistant breathable material 12 is adjacent to the vertical ribs 4 and is tightly pressed by the crate. The lathing is made in the form of a horizontal 14

-shaped profile rigidly connected to vertical ribs 4, rivets and / or galvanized self-tapping screws 15 and vertical 16

-shaped profile rigidly connected with rivets and / or galvanized self-tapping screws 15 with horizontal profile 14. To vertical 16

-shaped profiles are rigidly attached to the finishing facade layer 17 of the panel. Between the breathable material 12 and the finishing facade layer 17, due to the use of mutually intersecting profiles 14, 16 as a spacer between them, a ventilated gap is formed that allows the internal cavity of the panel to communicate with the external environment through fire-resistant breathable material 12. The lathing can be made or flush with the outline of the panel , or with a protruding part 18 above the housing. In this case, its protruding part 18 is connected to the connecting corner 19, rigidly mounted on the upper guide 2. On the upper 20 and / or sides 21 of the panel contour, L-shaped corners 22 are installed behind the internal fire-resistant casing, one shelf 23 of which is rigidly fixed on the rails 1, 2 or ribs 4, and the second shelf 24 is deployed inside the panel. An anchor 25 is installed on it. An anchor 25 is installed on the lower 1 U-shaped profile. A sealing gasket 27 is located on the lower side 26 of the panel. A compensating gasket 28 is installed on the upper side 20 and / or sides of the panel 21. Lower and upper guides 1 , 2 and vertical ribs 4 are prefabricated. The panel is made of window 29 and / or doorways formed by 1, 2 U-shaped and 4 C-shaped profiles.

-образный профиль обрешетки панели. Панель может быть установлена на консольной части перекрытия, в том числе отделяя внутренние помещения балкона или лоджии, с полным опиранием нижней направляющей 1 на перекрытие или балку, с незначительной модификацией крепления вертикального профиля 16.The proposed panel is made as follows. Profiles are delivered to the construction site in the form of compact packages divided by purpose. A frame is mounted at the construction site, vertical ribs 4 are installed in the guides 1, 2 profiles, which are rigidly attached to the guides 1, 2 by means of galvanized self-tapping screws 7 and / or bolted joints. The inner and outer casing with the crate are attached to the assembled frame. The space between the inner and outer cladding is filled with non-structural insulation 9. The panel can be delivered to a construction site with varying degrees of factory readiness from individual elements to a prefabricated panel with a crate. Installing such a panel does not require much time and labor. Moreover, all panel mounting elements are arranged in such a way as to eliminate the need for their special protection with fire-resistant materials, all these elements are protected as part of the panel by its sheet skin. Sealing 27 and compensating 28 gaskets of various thicknesses and densities, used in the construction of the facade system, provide a tight fit of the panel to the elements of the supporting structures, preventing excessive infiltration (i.e., the penetration of outside air into a closed room) and energy losses, while at the same time providing the possibility of low temperature metal frame deformations. Finishing the facade layer 17 is hung using clamps directly on the vertical 16

-shaped crate profile. The panel can be installed on the console part of the floor, including separating the interior of the balcony or loggia, with the full support of the lower guide 1 on the floor or beam, with a slight modification to the fastening of the vertical profile 16.

The proposed invention will find its application in the construction of low-rise and high-rise buildings for industrial and civil purposes.

Claims (12)

1. A multilayer building panel containing an internal frame made in the form of a collapsible frame made of galvanized perforated thermal profiles, consisting of lower and upper guides of the U-shaped profile with bends of edges made in one direction, between which vertical ribs of the C-shaped profile are installed located in a row at a distance from each other in the longitudinal direction of the guides and rigidly connected with them by means of fasteners, and also contains sheet sheathing, and in the inner floor non-structural insulation is placed on the spine, characterized in that the outer skin of the panel surface is made in the form of a fire-resistant breathable material placed on its outer side adjacent to the vertical ribs of the C-shaped profile, and pressed by the crate, consisting of horizontal and vertical rigidly interconnected

-shaped profiles, while the crate is flush with the contour of the panel or protruding, with a finishing facade layer rigidly fixed on it along the entire outer surface of the panel, and the guides of the U-shaped profile and the ribs of the C-shaped profile are made with molded recesses located opposite each other in the places of their intersection, and in the formed recesses of the guides of the U-shaped profile, one or more through holes are made, while the inner paneling of the panel contains one or more layers of sheet material with a vapor barrier film located under the first layer of sheet material on the inside of the panel, and fireproof fasteners made in the form of L-shaped corners, each of which is located behind the inner lining, are installed on the upper and / or lateral sides of the panel, and one corner shelf is rigidly fixed to the C-shaped and / or upper U-shaped profile, and the second shelf is turned inside the panel and is designed for anchoring, also for through anchoring ene and lower U-shaped profile. 2. The multilayer building panel according to claim 1, characterized in that the panel is made of window and / or doorways formed by U-shaped and C-shaped profiles. 3. The multilayer building panel according to claim 1, characterized in that the protruding part of the crate is connected to the docking corner. 4. The multilayer building panel according to claim 1, characterized in that a gasket is located on the underside of the panel. 5. The multilayer building panel according to claim 1, characterized in that on the upper and / or lateral sides of the panel there is a compensating gasket. 6. The multilayer building panel according to claim 1, characterized in that for ease of assembly and packaging, the lower and upper guides and vertical ribs are factory marked. 7. The multilayer building panel according to claim 1, characterized in that galvanized self-tapping screws and / or bolted joints are used as fasteners for the profiles. 8. The multilayer building panel according to claim 1, characterized in that rivets and / or galvanized self-tapping screws are used as fasteners for the battens. 9. The multilayer building panel according to claim 1, characterized in that non-combustible fiberglass material, such as Isoltex-NG, or Tend-KMO, or fiber cement boards, are used as flame-retardant breathable material. 10. The multilayer building panel according to claim 1, characterized in that cement-magnesium plates with perforation, or steel sheets with a corrosion-resistant coating with perforation, are used as flame-retardant breathable material. 11. The multilayer building panel according to claim 1, characterized in that fire-resistant and / or moisture-resistant plasterboard sheets, or glass-magnesite sheets, or steel profiled sheets, are used as the inner sheathing. 12. The multilayer building panel according to claim 1, characterized in that as a material of non-structural insulation, a heater based on basalt fiber is used.

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