Method to install heat insulating panels

FIELD: construction.

SUBSTANCE: method to install heat insulating panels includes assembly of adjacent panels by arrangement of panels onto a facade surface, connection of adjacent panels, at least one side of every of which comprises alternately arranged ledges and grooves so that ledges of one panel are applied onto grooves of the other panel, and fixation of panels onto the facade surface, besides, adjacent panels are joined, at least one side of every of which comprises an end ledge arranged practically along the entire length, so that panels are applied with ledges one over the other.

EFFECT: simplified process for installation of heat insulation panels, increased heat insulation of a facade, higher reliability and durability of facade finishing, apart from high aesthetic characteristics of a facade.

11 cl, 4 dwg

 

The invention relates to the field of construction and is designed for insulation and decorative finishing of the outer surface of buildings and structures for various applications.

Closest to the claimed solution and adopted as a prototype is the solution described in the patent of Ukraine No. 10001, IPC7E04F 13/00, publ. 17.10.2005. In the mentioned patent describes a facing panel Assembly which includes the placement of the panels on the facade surface, the connection of adjacent panels, at least one side of each of which contains made alternating protrusions and recesses so that the tabs of one panel placed on deepening the other panel, and fastening the panels on the facade surface.

The disadvantage of the described technical solution is the ability to connect adjacent panels only by joining their sides, containing alternately arranged projections and recesses so that when the mounting tabs of one panel put on located in a horizontal row UNPROFOR them deepen panel while in a vertical row adjacent panel just installed one on another. With this method of installation of adjacent panels decreases the density of the connection of adjacent panels in a vertical row in the ocher is ü, leads to deterioration of insulation of the facade, as well as lowering the reliability and durability of its finish.

Poor exterior finish of the building is often the cause of its low thermal protection, which, in turn, leads to increased energy costs.

The basis of the invention the task is to develop a method of installing insulation panels on the facade, which through the optimal selection of the sequence and composition of action for the installation of heat-insulating panel, and the devices will be provided to simplify the process of installing insulation panels on the walls, increasing thermal insulation of the facade, improving the reliability and durability of the facade, along with high aesthetic characteristics of the facade.

The problem is solved in that a method of installing insulation panels include mounting adjacent panels by placing panels on the facade surface, the connection of adjacent panels, at least one side of each of which contains made alternating protrusions and recesses so that the tabs of one panel placed on deepening the other panel, and mounting panels on the facade surface. According to the invention connecting adjacent panels, at least the bottom side of each of which contains made almost the entire length of the edge protrusion, so that impose panel by the tabs on each other. Such a connection of adjacent panels, wherein at least one side of each of the panels contains performed alternating projections and recesses and at least one side of each of the panels contains the completed almost the entire length of the end tab allows you tightly and securely connect adjacent panels together, which eliminates gaps between adjacent panels and, in turn, improves thermal insulation of the facade as a whole.

While the panel according to the invention contains the lower insulating part and the upper cladding part, which contains decorative elements facing. Moreover, at least one side panel contains the completed protrusions alternately formed cladding part in the form of facing elements, and deepening, for connection with corresponding projections and recesses of the adjacent panel. At least one side panel contains the completed almost the entire length of the edge protrusion formed protruding insulating part or serving a facing part of the panel for connection with a corresponding ledge of the adjacent panel. Moreover, at least one end of the insulating part of the panel contains the longitudinal sample. In addition to the, you can perform at least one end panel with a beveled surface and executed along her groove. Also you can perform in the recesses of the panel, at least one side panel holes for fasteners.

It is preferable for this implementation of the method in which adjacent panels are connected so that their connection is formed a cavity, bounded by the surfaces of the ends of adjacent panels filled with polyurethane foam. Such a connection of adjacent panels with the formation of the cavity at the point of connection allows to additionally seal the joints of adjacent panels by incorporating into the cavity formed of polyurethane foam, which acts as insulation and fixing material, which improves thermal insulation of the facade as a whole and increases the reliability and durability of the facade. Use as filling cavities formed polyurethane foam due to its high quality characteristics, particularly low thermal conductivity, durability, lightness, moisture resistance, as well as the fact that polyurethane foam is well able to fill the joints in building constructions, adheres to all common building materials. The surface does not require a preliminary step is through processing, the hardening of the foam occurs under the influence of chemical reactions with the surrounding air. It should be noted that the use of polyurethane foam is preferred, however, possible to use other insulating and fixing materials.

It is preferable for this implementation of the method in which is mounted panels that contain decorative elements facing, and mount the panel so that in the place of their connection is formed seam, imitating the seam clutch facing elements. Such use of panels with decorative facing elements, the shape and size of which may vary, allows along with insulating function panel to use it as a decorative element that eliminates the need for special installation of decorative cladding, and thus, simplifies installation. And mounting panels so that in the place of their connection is formed seam, imitating the seam clutch facing elements, gives an aesthetically attractive appearance to the facade.

Preferably carry out the grout joints between the facing elements fire rubbing compound. The use of fire-resistant trowel compositions for grouting improves fire safety systems, as well as resistance to adverse Atmos is Arnim influences, that, in turn, improves the reliability and durability of the facade.

Preferably the panel is fixed to a front surface through the holes previously made on their surface, thus before final mounting of the panels in the available holes injected polyurethane foam. The introduction of polyurethane foam between the exterior surface and the installed panel creates an additional thermal insulation of the facade, as well as additional fixing of the panels to the facade. The specified sequence of attachment of the panels, in which the first fixed panel through the holes, eliminating the need to create additional holes for the introduction of polyurethane foam. Thus, the remaining holes on the surface of the panel is used for the introduction of polyurethane foam, and then to mount the panel using fasteners that simplifies the process of installing insulation panels on the facade.

Preferably the panel is additionally secured through at least one hole made in the recess, at least one side panel. Additional fixing of the panels increases the reliability and durability of the facade.

Preferably the panels are fixed by means of the fastening elements in the form of dowels, but you can use other ti is s fasteners.

Preferably adjacent to the corner of the facade panel is mounted in such a way that the pre-cut vertical end panels with the formation of the beveled surface, perform on a given surface vertical trench, forming after mounting on the wall adjacent to the corner of the facade panels cavity, which is filled with polyurethane foam. Such mounting adjacent to the corner panels eliminates the need for special corner elements, which simplifies the process of installing insulation panels on the facade and also creates a uniform exterior surface and reduces the number of joints. In addition, the implementation of the gutter on the beveled surface and fill it with polyurethane foam helps to ensure sealing joints of adjacent panels, which increases thermal insulation of the facade additionally, the above qualitative characteristics of polyurethane foam facilitate fixation of adjacent panels to each other.

Preferably the vertical end panels cut at an angle of 40-50°, more preferably at a 45°angle, to create the right angle of the facade.

The claimed technical solution is illustrated with the help of figures, where:

1 shows a General view of the insulation Board;

Figure 2 shows a schematic view panel mounting angle of the facade;

Figure 3 shows the schemes of the political view of unit adjacent panels at the corner of the facade;

Figure 4 shows a schematic view of the joint between adjacent panels.

The invention is carried out as follows.

Thermal insulation panel installed on a front surface of horizontal and vertical rows. Preferably, the installation is performed with the angle of the facade and from the bottom up. In this example, the insulating panel 1, which contains the lower insulating part 2, made for example of polyurethane foam, and the upper cladding part 3, which contains a decorative facing elements 4, for example, clinker tiles, placed on the surface of the facade. Moreover, the insulating panel 1 contains at least one side containing a performed alternately, the protrusions 5 and the recess 6, and at least one side containing made almost the entire length of the edge protrusion 7 formed protruding insulating part 2 or serving cladding part 3 insulation panel 1. Pre-prepare the surface of the front by setting the guide elements, in particular a ground profile, which serves as the starting rod and the protection of the lower edge of the lower row of panels.

Heat insulation panel 1 is installed and fixed on the ground profile, for example, with a layer of polyurethane foam, after which the surface is ti panel drill holes 8 for mounting elements. Moreover, with the aim of leveling the surface of the wall between the wall and the insulation panel 1 is installed embedded elements, such as polyurethane foam, in the joints of insulation boards 1. Heat insulation panel 1 is fixed through the holes 8 by means of fixing elements, after which the remainder of the holes 8 is injected polyurethane foam than partially fill the space between the panel and the surface of the facade, and then finally attach the insulating panel 1 to the surface of the facade through the remaining hole 8 by means of fastening elements. As the fasteners are preferably used dowels. In addition, drill holes 9 for fastening elements in the recesses 6 of the insulating panel, through which by using, for example, dowels driven type, also attach the insulation panel. Preferably, the vertical end face of the insulating panel 1, which is placed on the corner of the facade, pre-cut with the formation of the beveled surface, preferably at an angle of 45°, and perform the specified surface of the vertical groove 10 of any geometrical shape, for example, by milling operations.

In this example, when installing adjacent in a horizontal row of insulation boards 1, at least one vertical one hundred is it each of which contains executed alternately, the protrusions 5 and the recesses 6, after placement on the surface of the facade connect them in such a way that the protrusions 5 of one of the adjacent insulating panel 1 placed on the recesses of the 6 other heat insulation panel 1.

Accordingly, when installing adjacent in the vertical row of panels, at least one horizontal side of each of which contains made almost the entire length of the edge protrusion 7, after placement on the surface of the facade connect them in such a way that impose panel end tabs 7 at each other.

Moreover, formed at the junction of adjacent panels cavity 11, due to the constructive implementation of the ends of the panels, for example, perform at least one end of the insulation of the panel 1 with a longitudinal sample, after fastening adjacent panels are filled in, for example, polyurethane foam.

When installed adjacent to a corner of the facade panels after placement on the surface of the facade connect them in such a way that pre-cut, as described above, the vertical end faces form an angle, and performed on the surface of the beveled ends of the chute 10, as described above, to form the cavity 12, which after mounting the panels are filled in, for example, polyurethane foam.

Heat insulation panel 1 is installed so the m way in the place of their connection is formed seam, imitating the seam clutch facing elements. The joints between the facing elements fire-resistant RUB clean trowel composition.

Thus, the claimed invention through the optimal selection of the sequence and composition of action for the installation of heat-insulating panel, and the device provides a simplified installation of insulation panels, increases thermal insulation of the facade, improves the reliability and durability of the facade, along with high aesthetic characteristics of the facade.

1. The method of installation of insulation boards, including the installation of adjacent panels by placing panels on the facade surface, the connection of adjacent panels, at least one side of each of which contains made alternating protrusions and recesses so that the tabs of one panel placed on deepening the other panel, and mounting panels on the facade surface, characterized in that connect adjacent panels, at least one side of each of which contains made almost the entire length of the edge protrusion, so that impose panel by the tabs on each other.

2. The method of installing insulation panels according to claim 1, characterized in that the connection of Aut thus, in the place of their connection is formed a cavity, bounded by the surfaces of the ends of adjacent panels.

3. The method of installing insulation panel according to claim 2, characterized in that the cavity is filled with polyurethane foam.

4. The method of installing insulation panels according to claim 1, characterized in that the assembled panels that contain decorative facing elements.

5. The method of installing insulation panels according to claim 4, characterized in that the assembled panels so that in the place of their connection is formed seam, imitating the seam clutch facing elements.

6. The method of installing insulation panel according to claim 5, characterized in that carry out the grout joints between the facing elements fire rubbing compound.

7. The method of installing insulation panels according to claim 1, characterized in that the panels are fixed through the holes previously made on their surface, thus before final mounting of the panels in the available holes injected polyurethane foam.

8. The method of installing insulation panels according to claim 1, characterized in that the panels are fixed through at least one hole made in the recess, at least one side panel.

9. The method of installing insulation panel according to claim 7 or 8, characterized in that the panels are fixed on what redstem fastening elements in the form of dowels.

10. The method of installing insulation panels according to claim 1, characterized in that adjacent to the corner of the facade panel is mounted in such a way that the pre-cut vertical end panels with the formation of the beveled surface, perform on a given surface vertical trench, forming after mounting on the wall adjacent to the corner of the facade panels cavity, which is filled with polyurethane foam.

11. The method of installing insulation panel of claim 10, wherein the vertical end panels cut at an angle of 40-50°.



 

Same patents:

FIELD: construction.

SUBSTANCE: building base facing is arranged in the form of shaped relief panels with thickness of 2-4 mm from a polymer material - polypropylene, serially installed along the base length and joined to each other by ledges and slots available at their end sides by means of latches. At the angles of the base the panels are connected with angular double-faced panels, connected at the inner side with an angular frame, arranged in the form of a double-sided rod truss with braces forming flat triangular structures with runs, and fixed to the inner surface of the double-faced panels. At the top of the double-faced angle the angular panels along their entire height are arranged as rectilinear, and the value of ledges on panels relief exceeds thickness of relief panel material. Connection of the rod truss with panels is arranged in the form of elastic latches arranged pairwise in its end parts and in the middle part.

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FIELD: construction.

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5 cl, 5 dwg

FIELD: construction.

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9 cl, 2 dwg

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5 cl

Facing for walls // 2423583

FIELD: construction.

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EFFECT: invention increases reliability of facing fixation.

8 cl, 11 dwg

FIELD: building units, particularly coverings or linings for buildings with vented facades.

SUBSTANCE: device has support profile connected to wall to be covered, intermediate member cooperating with support profile and bearing member having U-shaped profile. U-shaped profile shoulder is connected to intermediate member surface. Free ends of U-shaped profile have projections extending at 90° from sides thereof. There is a gap for opposite panel edges installation formed between inner surface of each projection and intermediate member surface. Shoulder of U-shaped profile is provided with tong embedded in window formed on intermediate member. Tong is folded relative one side of U-shaped profile for 90° angle. Tong length exceeds that of projection extending in the same direction. Tong has through orifice for securing member insertion. Orifice mates to through orifice made in intermediate member. Shoulder of U-shaped profile has zigzag area formed in tong direction. Each bend of zigzag area has angle of not more than 90°. Distance d between bend apex adjoining side of bearing member opposite to tong and inner tong surface corresponds to intermediate member thickness. Intermediate member window width and length exceed tong thickness and width by 1 - 2 mm.

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4 cl, 3 dwg

FIELD: building units, particularly to protect buildings and structures and for wall covering.

SUBSTANCE: covering includes a number of finish tiles secured to surface to be covered by fastening strips having bearing hooks and securing hooks uniformly distributed along strip length. Bearing hooks have fasteners directed towards surface to be covered. Securing hooks include fasteners oriented in opposite direction relative fasteners of bearing hooks. Each tile has two longitudinal grooves formed on two joining surfaces. One groove has cross-section mating to bearing hook fastener, another one is located on opposite joining surface and has cross-section corresponding to securing hook fastener. Fasteners of adjacent securing hooks used for one tile installation are bent out of strip hooks at 30°-40° during their forming. Joining surfaces of each tile are arranged on upper and lower tile ends. Longitudinal groove cooperating with bearing hook fastener is formed on lower tile end. Longitudinal groove of joining surface contacts with securing hook fastener formed on upper tile end. Each pair including bearing and securing hooks is made as a single plate. Method of covering securing involves rigidly connecting fastening strips to surface to be covered, seriously connecting finish tiles to rows of bearing hooks of two adjacent fastening strips; mating joining surfaces of each tile fasteners of bearing and securing hooks, wherein fasteners of adjacent securing hooks used for one tile installation are bent at 30°-40° outwards. Tiles are secured in down-top direction. Each tile is placed on fasteners of lower row of adjacent bearing hooks of two adjacent strips by lower tile end and secured by upper end thereof. Fasteners are bent above row of adjacent fixing hooks in direction towards longitudinal strip axis up to bringing fastener into contact with longitudinal groove of joining surface on upper tile end.

EFFECT: increased accuracy and reliability of covering fixation, improved structural integrity.

2 cl, 4 dwg

FIELD: building, particularly for new building construction and existent ones repair and reconstruction.

SUBSTANCE: facade enclosure is composed of single blocks. Each block comprises frame with fastening members and inner lining. Inner lining and facade facing define sealed cavity with the use of sealing material. The sealed cavity communicates with atmosphere through channel and is provided with at least one heat-insulation screen and at least two heat-insulation layers. The blocks are connected to the building by supports rigidly secured to building frame by the first ends thereof. The second support ends are connected to blocks.

EFFECT: increased air-tightness and reliability of facade enclosure.

21 cl, 12 dwg

FIELD: industrial and civil building, particularly to attach facing panels used for wall protection against climatic and atmospheric action and to improve building appearance.

SUBSTANCE: fastening set comprises a number of support units, load-bearing U-shaped profiles, hanging members and fastening members. Each support unit is made as telescopically connected holder and sliding insert with end plate. The holder has support plate formed at free end of holder shoulder and adapted to connect the holder to building wall. The end plate of the sliding insert is adapted for load-bearing profile connection. Each hanging member is provided with mounting orifices to secure thereof to load-bearing profile. At least one orifice grouping for hanging member connection to load-bearing profile and one orifice grouping for load-bearing profile connection to support unit are created on bottom part of load-bearing profile. Each orifice grouping includes at least three elongated orifices. Number of orifices formed in end plate and hanging member is equal to that made in load-bearing U-shaped profile and the orifices have major axes crossing each other during U-shaped profile connection to the support unit and hanging member fastening to load-bearing profile. Distance between orifice groupings is not less than 40 mm. Larger axes of U-shaped member orifices define closed polygon outlining cross-sectional stability area.

EFFECT: increased load-bearing capacity, possibility to use any panel materials for building facing without substantial structure debugging, reduced labor inputs and costs of set unit and facing panel assemblage due to reduced technological operations necessary for facing panels finishing during assemblage, extended range of facing panel fastener adjustment and increased resistance to transversal load action.

14 cl, 7 dwg

FIELD: industrial and civil building, particularly to attach facing panels used for wall protection against climatic and atmospheric action and to improve building appearance.

SUBSTANCE: fastening set comprises load-bearing U-shaped profiles, hanging members, fastening members and a number of support units. Each support unit is made as telescopically connected holder and sliding insert with end plate. The holder has support plate formed at free end of holder shoulder and adapted to connect the holder to building wall. The end plate of the sliding insert is adapted for load-bearing profile connection. Each load-bearing member is provided with mounting orifices to secure thereof to load-bearing U-shaped profile. Bottom part of load-bearing U-shaped profile is provided with at least three elongated orifices for load-bearing profile connection to support unit and for hanging member connection to load-bearing U-shaped profile. Number of orifices formed in end plate and hanging member is equal to that made in load-bearing U-shaped profile. Orifices in end plate, hanging member and load-bearing U-shaped profile are similar in shape. Load-bearing U-shaped profile orifices have major axes crossing each other during U-shaped profile connection to the support unit and hanging member fastening to load-bearing U-shaped profile.

EFFECT: increased load-bearing capacity, possibility to use any panel materials for building facing without substantial structure debugging.

5 cl, 8 dwg

FIELD: building, particularly coverings or linings for walls or ceilings.

SUBSTANCE: facing structure comprises parallel carrying profiles each formed of metal or polymeric material by extrusion operation or by sheet material bending. Each profile has hollow post. Orifices to connect carrying profiles to bearing structure are formed in carrying profile base. The carrying profile base also has clamp. Opposite side of the base is defined by partitions having free ends creating gap along carrying profile of the second post. Partitions are located between carrying profile posts and extend transversely to the posts. The partitions are made as posts of carrying profile having H-shaped cross-section and located between the posts. Posts of H-shaped carrying profile are defined by flanges and post of thrust profiles having U-shaped cross sections connecting the flanges. The thrust profiles face cladding panels by opened cavities thereof. Free end of each flange defined by thrust profile cross-section is bent inside the cavity so that acute angle is created in-between. Extensions of longitudinal mounting profile ridges are arranged between trust profile bends. The mounting profile has longitudinal extensions. Mounting profile strip touches free end of each mounting profile flange at bends. Longitudinal extension of face side ribs are directed one towards another. Adjacent cladding panels create cladding panel fixing profile at joint between grooves thereof in which longitudinal mounting profile rib extension are inserted.

EFFECT: simplified facing structure, increased manufacturability, reduced labor inputs for facing structure assemblage, prevention of panels to be connected misalignment.

10 cl, 9 dwg

FIELD: building, particularly coverings or linings for walls or ceilings composed of a number of similar elements.

SUBSTANCE: support panel has rectangular shape and is provided with four fastening members arranged on inner surface thereof. The fastening members are made as mounting hooks formed so that distance between inner panel surface and hook end L is equal to heat insulation layer thickness H. Horizontal and vertical distances between the hooks correspond to distance between ears connected to load-bearing structure of building.

EFFECT: simplified structure and assembly operation.

3 dwg

FIELD: construction engineering.

SUBSTANCE: method and device can be used for external system of heat protection (ventilated facades) and it is intended for forming external wall enclosures with increased thermo-technical characteristics. Method includes preliminary mounting of window modules a t construction site, height of modules doesn't exceed three floors; window modules are built in form of frame carcasses. Window modules are mounted in form of frame carcass of design architectural window opening. Then vertical beacons are mounted later along line of designed joints of wall enclosures, while taking compensation spaces in mentioned joints into account, and along line of side slopes of designed window openings. Openings disposed in relation to vertical beacons are marked and drilled in coverings for making fixing units; fixing units are mounted in pairs and tied together preliminary by threaded pins through openings in support paws of units and openings in coverings. Pullout console are removed outside contours of coverings. Separate posts and window modules are mounted in fixing units due to bringing openings in embrace fork of fixing unit with corresponding oval openings at ends of separate posts and posts of window modules and they are fastened by threaded connection. Compensation spaces are provided at edges of posts at level of coverings b subjecting separate posts and window modules to shift. Plane of façade is graded due to subjecting separate posts and window modules to shift at direction being perpendicular to plane of façade. Designed joints of wall enclosures and side slopes of designed architectural window openings relatively vertical beacons are checked through horizontal shift of separate posts and window modules. Fixing units are coupled finally by means of thread pins through additional fixing openings inside their carrier consoles and through preliminary drilled openings in coverings. Horizontal beacons are installed on line of top and low slides of designed architectural window openings. Reliability of horizontal tying of window openings is inspected due to sifting horizontal cross stapling along posts of window modules. Window units are installed inside designed architectural window openings and inter-level wall enclosures are formed by fixing sandwich-type panels to back sides of separate posts and posts of window modules due to L-shaped fixing elements and self-tapping screws. Then inter-level gaps among wall enclosures are made habitable to winter due to fixing warm-keeping stuff by plate dowels to coverings at side of faced; then members for fixing facing are mounted. Device for realization of the method is also described.

EFFECT: quicker mounting and dismounting of wall enclosures; higher efficiency of warming.

7 cl, 11 dwg

FIELD: construction, particularly for tile laying on wall enclosures, namely on vented facades, to create relief architecture compositions (architectural orders) arranged in single plane.

SUBSTANCE: facing structure comprises the first facing tile set including tiles having flat interior surfaces, which define common facade plane. Facing structure includes horizontal profiles fastened to vertical ones and connection members, which are secured to vertical profiles and provide visible or concealed facing tile connection. The connection members fix upper, lower tile parts or two adjacent tiles. Facing structure also comprises support flanges of tile edge fastening members. Tile edge fastening members adapted for concealed tile fastening are to be inserted in corresponding grooves made in tile edges. The facing structure additionally has arch module projecting out of common building facade plane. The arch module is preliminarily assembled at building site and retained over arch formed in building wall by means of anchoring bolts passing through orifices of the supports. The facing structure also has the second tile set including tiles projecting out of common facade plane and having different cross-sections. Edges of the second tiles are supported by support flanges, which provide visible or concealed tile connection and have similar grooves adapted to receive wings of fastening members for concealed tile fastening. Arch module including facing tiles, connection members for visible or concealed tile connection, which secure lower tile parts and two adjacent tiles, and support flanges for tile edge fixation. The support flanges, which provide concealed tile fastening pass in corresponding grooves made in tile edges. The arch module is made as frame including holders with box-like cross-sections and connected one with another by means of stiffening components. The holders have support for holder connection to wall. At least two members to secure lower tile parts and at least one member to retain two adjacent tiles are fastened to facial holder sides and define pockets for radially formed tiles receiving made in exterior frame part between the holders. Members for lower tile part fixation extend along longitudinal holder axes. Members for simultaneous fastening of two adjacent tiles are transversal to longitudinal holder axes.

EFFECT: possibility to change appearance of buildings including ones having arch openings.

5 cl, 21 dwg

FIELD: construction, particularly coverings or linings, for instance, for walls or ceilings composed of a number of similar elements.

SUBSTANCE: composite bracket comprises holder connected to building wall and provided with longitudinal guiders. The holder is adapted to fix reinforcing member from building wall side. The reinforcing member is made as box with flanges having rounded ends and extending vertically upwards and downwards with respect to the holder. Oval orifices are made in upper and lower parts of box wall. Oval orifices have major axes extending in horizontal plane. Box is provided with sub-stamping located in area of box joining with holder. The sub-stamping extends for holder end wall thickness and provides close fitting of outer box wall and outer holder end surface to building wall.

EFFECT: increased strength, reliability, air-tightness and rigidity of hanged panel connection to building wall.

4 dwg

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