RU2788067C1 - Method for facade facing of a building structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, and in particular to methods for facing the facades of buildings and building structures. The effect is achieved by the fact that the method for facade cladding of a building structure is characterized by mounting on the surface of the structure that is being faced with a fastening system and facing the system with front panels, while the fastening system contains a supporting profile, before installation, measurements of the structure are carried out and profile dimensions are configured based on the architecture of the structure, and mounted to the bearing profile of the cladding panel, while the profile is placed horizontally above and below on the bearing surface and vertically between the horizontally located upper and lower bearing profiles, while holes are made in the base of the carrier profile for mounting a guide profile through it, at the same time, the placement of vertically located load-bearing profiles and guides crossing them is made based on the configurable geometry of the facade cladding panels, the joints of which are located on the surface of the mentioned profiles, holes are made in the side walls of the connecting load-bearing and guiding profiles at the point of their connection, configuring the geometry of the cladding panels and the profiles and guides corresponding to them are carried out by forming the design of the facade cladding, including the geometry of the cladding panels, for which purpose the shape and dimensions of the facade cladding are configured on the design image, taking into account the width of the profiles and guides, the shape and dimensions of the cladding panels, the material of manufacture of the said cladding panels is selected and their color, at the same time, the shape and dimensions of the cladding panels are configured based on the shape and dimensions of the load-bearing structural elements on which the facade cladding is mounted, by placing non-closable openings and protruding parts of the structure, configuring the placement of load-bearing profiles along the lower and upper edges of the facade cladding, around the openings, along the corners, configuring the placement of horizontal guides based on the configured design, shape and dimensions of the cladding panels, based on the configured facade cladding, determine the attachment points of the profiles to the structural elements, by crossing the profiles with each other, determine the location of the mounting holes through which the profiles pass into each other and are connected to each other, each of the elements is assigned an individual identification number, after which, in accordance with the configured design of the facade cladding and according to the individual identification numbers, the facade cladding is mounted to the structure.

EFFECT: providing the possibility of creating a low-waste technology for manufacturing original hinged facade systems, based on the architectural features of the building and design solutions.

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Description

The invention relates to the field of construction, and in particular to methods of facing the facades of buildings and building structures [E04F13/00, E04F13/07, E04F13/24].

Known from the prior art is a SYSTEM FOR MANUFACTURING FACADE CLADDING OF BUILDINGS OF IRREGULAR SHAPE [BG3522 (U1), 02/28/2020], containing an image capture module connected to a computer image processing configuration that is simultaneously connected to a database server and a 3D image processing module, while the 3D image processing module is connected to the 3D shape cutting device, which is connected to the matrix module and the production module.

The disadvantage of the analog is the inability of the described method of designing and manufacturing a bearing facade system in production, but only makes it possible to manufacture facade cladding based on the design of the carrier system, which makes this solution limited in use for the manufacture of individual facade systems based on the original architectural shape of the building and customer preferences. .

Known from the prior art is a FACADE SYSTEM WITH AN EXPLICIT JOINT AND VISIBLE LATTICES [NZ569951 (A), 04/30/2010], containing a plurality of rails attached to a building structure, each batten having an engagement surface with the structure and a supporting surface ready for final finishing of the panel; and one or more fiber cement cladding panels; the panels are attached directly to or through the battens so that said bearing surface of the front panel of each batten can form a recessed, pronounced joint surface on the outside thereof.

The disadvantage of analogue is the high material consumption of the facade system, due to the lack of preliminary design of the facade system before its installation.

The closest in technical essence is the METHOD OF FACING A BUILDING STRUCTURE OF A COMPLEX GEOMETRIC SHAPE [RU2008127130 (A), 20.02.2009], which includes fixing on the surface exposed to facing the fastening system of facing facade panels, including a support profile attached to the surface to be faced with the help of brackets, on which cladding panel, characterized in that they measure the structure and set the deviations of its elements from the design values, then they make an upper template that repeats the contours of the structure in its upper part, and a lower template that repeats the contours of the structure in its lower part, while the dimensions templates are selected from the condition of their protrusion beyond the upper and lower parts of the structure by an amount exceeding the maximum deviation of the structure dimensions from the designed values, taking into account the dimensions of the cladding panel fastening system, then the templates are set to temporary x brackets, align the templates at the control points, in the same way, selected on the templates on the matching parts of their projections on each other on one and the other side of the structure, after which the coincidence of the control points is checked and the templates are fixed on the structure, then through the holes previously made in the templates , placed along the perimeters of the templates with a step corresponding to the installation lines of the profiles of the cladding panel fastening system, tighten the threads, after which they strengthen the cladding panel fastening system in such a way that its brackets are oriented at the place of their attachment to the surface of the structure and the profile according to their distance from the surface of the structure threads.

The main technical problem of the prototype is the high labor intensity and complexity of the cladding, as well as the difficulty of making changes to the project. In addition, the method described in the prototype complicates the stage of designing the facade system before the start of production, including design, which makes it impractical to use this method for the manufacture of facade systems due to the high consumption of materials.

The objective of the invention is to eliminate the disadvantages of the prototype.

The technical result of the invention is to provide the possibility of creating a low-waste technology for manufacturing original hinged facade systems based on the architectural features of the building and design solutions.

The specified technical result is achieved due to the fact that the method of facade cladding of a building structure, which is characterized by mounting on the surface of the structure undergoing cladding of the fastening system and facing the system with front panels, while the fastening system of front panels contains a supporting profile, before installation, measurements of the structure are carried out and the dimensions of the mentioned profile are configured based on the architecture of the structure, it is configured and mounted to the carrier profile of the cladding panel, characterized in that the profile is placed horizontally above and below on the carrier surface and vertically between the horizontally located upper and lower carrier profiles, while holes are made at the base of the carrier profile for mounting a guide through it profile, while the placement of vertically located load-bearing profiles and guides crossing them is made based on the configurable geometry of the facade cladding panels, the joints of which are located on the surface at of the aforementioned profiles, holes are made in the side walls of the connecting carrier and guide profiles at the point of their connection, the configuration of the geometry of the cladding panels and the corresponding profiles and guides is carried out by forming the design of the facade cladding, including the geometry of the cladding panels, for which the structures are configured on the image the shape and dimensions of the facade cladding, taking into account the width of the profiles and guides, the shape and dimensions of the cladding panels, the material of manufacture of the said cladding panels and their color are selected, while the shape and dimensions of the cladding panels are configured based on the shape and dimensions of the load-bearing structural elements on which the facade cladding is mounted, placement of non-closable openings and protruding parts of the structure, configure the placement of load-bearing profiles along the lower and upper edges of the facade cladding, around openings, along corners, configure the placement of horizontal guides based on the configured design, shape and dimensions of the facing panels, based on the configured facade cladding, determine the attachment points of the profiles to the structural elements, by crossing the profiles between themselves, determine the location of the mounting holes through which the profiles pass into each other and connect to each other, each of the elements is assigned an individual identification number and sent to production for their manufacture, while before the output of the elements from production, the assigned individual identification number is applied to each of these elements, after which, in accordance with the configured design of the facade cladding and according to the individual identification numbers, the facade cladding is mounted to the structure.

In particular, the profile is made C-shaped.

In particular, the profile is U-shaped.

In particular, the profile is made of light steel thin-walled profile.

In particular, a damper tape is mounted between the cladding panels and the profile.

Brief description of the drawings.

Figure 1 shows a front view of a flat clad facade.

Figure 2 shows a General view of a flat clad facade.

Figure 3 shows a General view of the three-dimensional lined facade.

Figure 4 shows schematically a system for producing a façade system.

The figures indicate: 1 - horizontal carrier profile, 2 - wall, 3 - vertical carrier profile, 4 - horizontal guides, 5 - wind and moisture insulating layer, 6 - braces, 7 - damper tape, 8 - facing panels, 9 - brackets, 10 - insulation, 11 - ventilation holes, 12 - image capture module, 13 - image processing module, 14 - data module, 15 - configuration module, 16 - layer with load-bearing elements, 17 - layer with cladding panels, 18 - production module for the manufacture of profiles , 19 - production module for cutting and cutting facing panels, 20 - lintels.

Implementation of the invention.

Facade cladding contains a horizontal bearing profile 1 (see Fig.1, 2) made C - or U-shaped, placed on the bearing surface near the wall 2 of the facade side shelves up. Between the side shelves of the mentioned carrier profile 1 to the wall 2 with the help of brackets 9, vertical carrier profiles 3 are mounted, made in the same way as the horizontal carrier profile 1, C- or U-shaped. In this case, the side walls of the vertical carrier profile 3 mounted to the said wall 2 are located along the side walls of the horizontal carrier profile 1.

In one of the embodiments, before mounting the vertical load-bearing profiles 3, the wall 2 is insulated with a heater 10 and insulated with a wind and moisture insulating layer 5, which is laid on top of the mentioned heater 10.

In the vertical bearing profiles 3, rectangular mounting holes are made (not shown in the figures) through which a guide profile is mounted to the mentioned profiles 3, made in the form of horizontal guides 4, made in the same way as profiles 1 and 3 from a C- or U-shaped profile of a similar forms. Mounting holes are made at the base of the profile of horizontal guides 4 for their installation to vertical bearing profiles 3.

Through additional mounting holes in the horizontal guides 4 and vertical bearing profiles 3, braces 6 are mounted, also made of a C- or U-shaped profile, similar in shape to the above vertical guide profiles 3 and horizontal guides 4. Placement of vertical bearing profiles 3, crossing their horizontal guides 4 and crossing vertical bearing profiles 3 and horizontal guides 4 braces 6 is made on the basis of the geometry of the facing panels 8, which can be made in the form of polygons of any shape and size exceeding at least double the height of the profiles, while the joints of the said facing panels 8 must pass over said profiles 3 and/or mentioned guides 4 and/or braces 6. Cladding panels 8 can be mounted over damper tape 7 laid on the surface of said profiles 3 and/or mentioned guides 4 and/or mentioned braces 6, to which the region is mounted end panels 8.

For the manufacture of volumetric facade cladding, individual horizontal load-bearing profiles 1 and/or vertical load-bearing profiles 3 can be taken out of the plane due to jumpers 20 mounted between the mentioned profiles 1, 3 (see Fig.3).

Horizontal 1 and vertical 3 bearing profiles, horizontal guides 4, braces 6, and lintels 20 are made of light steel thin-walled profile.

For the manufacture of facade cladding, a system has been developed for its manufacture in production. The facade cladding manufacturing system contains an image capture module 12, made, for example, in the form of a camera, video camera, scanner, 3D scanner, including a laser scanner, etc. The image capture module 12 is connected to the image processing module 13, made in the form of a PC. The image processing module 13 can operate both fully automatically and by manual control. A data module 14 is connected to the image processing module 13, which can be made in the form of a data server, including a remote one. The configuration module 15 is also connected to the image processing module 13.

Facade cladding is designed based on the architectural design of the structure and the required design. To do this, a project of metal structures and a design of the facade of the facade cladding are formed, for which purpose the shape and dimensions of the facade cladding are configured on the digital architectural design of the building or on the captured image of the finished building by the image capture module 12 (see Fig.4) using the image processing module 13, with In this case, existing projects stored in the data module 14 can be used. Further, in the configuration module 15, the dimensions are specified, mainly the width of the profiles of the metal structure, the shapes and sizes of the mounted facing panels 8, the material of manufacture of the said facing panels 8 and their color are specified, based on the overall designed facade design. The shape and dimensions of the cladding panels 8 are configured based on the shape and dimensions of the supporting structures of the building (walls) on which the facade cladding is mounted, the placement of the door and window openings of the building, balconies, loggias, arches, bay windows, plinth, etc. The design of the facade can be in the form of frescoes, puzzles, stained-glass windows, etc.

Further, in the configuration module 15, the placement of horizontal load-bearing profiles 1 is configured, which mainly determine the lower edge of the facade cladding or its fragment, including above door and window openings, balconies, arches, vertical load-bearing profiles 3, without fail along the corners of the building, door and window openings, arches, balconies and horizontal guides 4, while the placement of vertical bearing profiles 3 and horizontal guides is configured based on the width and height of the facade with a step that ensures that the requirements for the load on the facade cladding are met.

Based on the designed design of the facade, the shape and size of the cladding panels 8, the placement of the braces 6 is configured, which are placed mainly at the junction of the cladding panels 8, while the said braces 8 must be mounted at least between profiles 1 and/or 3, or horizontal guides 4 , or profiles 1 and/or 3 and guides 4 with the possibility of ensuring reliable fastening of said panels 8 to the load-bearing elements of the facade cladding.

Based on the projected design of the facade, to create additional volume, the placement of additional horizontal 1 and vertical 3 bearing profiles in different planes is configured, for which the placement of jumpers 20 is determined, mounted between horizontal 1 and vertical 3 bearing profiles, or only between horizontal bearing profiles, or only vertical bearing profiles 3.

Based on the configured facade cladding and the building project, in the configuration module 15, the attachment points of the facade cladding to the facades and building elements are determined, including with the help of brackets 9.

Further, in the configuration module 15, at the intersection of braces 6 with vertical bearing profiles 3 and horizontal guides 4, as well as horizontal guides 4 with vertical bearing profiles 3, the location of rectangular mounting holes is determined, through which horizontal guides 4 and braces are mounted to the vertical bearing profiles 3 6 and mounting holes through which the said elements are interconnected. In addition, the location of the mounting holes for connecting the vertical carrier profiles 3 to the horizontal carrier profile 1 is determined.

At the end, at least two layers 16, 17 are formed from the configured facade cladding, one of which contains load-bearing elements - a horizontal load-bearing profile 1, a vertical load-bearing profile 3, horizontal guides 4, braces 6, and jumpers 20, and the second - facing panels 8. Each of the elements of the layers 16, 17 in the configuration module 15 is assigned an individual identification number, which is recorded in the data module 14.

Further, each of the layers 16, 17 is sent to production modules 18, 19, the layer with load-bearing elements 16 is sent to the production module for the manufacture of profiles 18, the layer with cladding panels 17 is sent to the production module for cutting and cutting cladding panels 19. Using the mentioned production modules 18, 19, to which the corresponding machines are connected (not shown in the figures), profiles 1 and 3, horizontal guides 4, braces 6, and jumpers 20 are made according to a previously defined configuration, they are cut according to the dimensions specified by the configuration, ventilation 11 are cut into them , rectangular mounting holes and mounting holes, cut and cut facing panels 8. At the same time, before the elements leave the mentioned production modules 18, 29, each of these elements is marked with an individual identification number assigned to them earlier in the configuration module 15 and stored in the data module fourteen.

Facade cladding elements ready for installation are delivered to the place of their installation, where, in accordance with the project of metal structures and facade cladding facade design formed in the configuration module 15 and according to individual identification numbers, the facade cladding is mounted to the building.

If necessary, on the facade cladding to the facing panels 8 or between them, and / or to the vertical bearing profiles 3, and / or horizontal guides 4, and / or braces 6, as well as jumpers 20, light sources (not shown in the figures) are mounted with the possibility of creating lighting for the building and / or the surrounding area. In addition, to the facing panels 8 or between them, and/or to the vertical bearing profiles 3, and/or horizontal guides 4, and/or braces 6, LED displays are mounted (not shown in the figures).

The technical result - providing the possibility of creating a low-waste technology for manufacturing original hinged facade systems based on the architectural features of the building and design solutions, is achieved due to the exact configuration of the facade cladding, consisting of fastening elements on the surface of the structure of facing panels 8, made in the form of bearing horizontal 1 and vertical 3 profiles, horizontal guides 4, braces 6 and lintels 20 using a system for its manufacture, which allows you to design the shape and dimensions of the facade cladding and the mentioned elements associated with it, as well as their individual location relative to the structural elements and design of the facade cladding, due to the geometry of the cladding panels 8 , each of the elements is assigned an individual identification number and sent to production for their manufacture, while before the release of the elements from production, each of these elements is assigned an assigned individual identification number, after which, in accordance with the configured design of the facade cladding and according to individual identification numbers, the facade cladding is mounted to the structure. Knowing the construction dimensions of the structure, cladding panels 8 and profiles from which the fasteners are formed, it is possible to ensure a minimum waste output in the production of facade cladding, and with allowable indents from the overall design by the customer, including ensuring waste-free production by adjusting the geometric dimensions of the fasteners and facing panels at the end of production. Assigning individual identification numbers to each of the elements of the facade cladding makes it possible to exclude the participation of the manufacturer in the assembly, which can be performed by any buyer.

Claims (4)

1. The method of facade cladding of a building structure, characterized by mounting on the surface of the structure of the fastening system being clad and facing the system with front panels, while the front panel fastening system contains a supporting profile, before installation, measurements of the structure are carried out and the dimensions of the said profile are configured based on the architecture of the structure, configure and mounted to the bearing profile of the cladding panel, characterized in that the profile is placed horizontally at the top and bottom on the bearing surface and vertically between the horizontally located upper and lower bearing profiles, while holes are made at the base of the carrier profile for mounting a guide profile through it, while placing vertically located load-bearing profiles and guides crossing them are made based on the configurable geometry of the facade cladding panels, the joints of which are located on the surface of the mentioned profiles, in the side walls connected between both bearing and guiding profiles have holes made at the point of their connection, and the configuration of the geometry of the cladding panels and the corresponding profiles and guides is carried out by forming the design of the facade cladding, including the geometry of the cladding panels, for which the shape and dimensions of the facade cladding are configured on the design image, taking into account the width of the profiles and guides, the shape and dimensions of the facing panels, the material of manufacture of the said facing panels and their color are selected, while the shape and dimensions of the facing panels are configured based on the shape and dimensions of the load-bearing structural elements on which the facade cladding is mounted, the placement of non-closable openings and protruding parts of the structure, configure the placement of load-bearing profiles along the lower and upper edges of the facade cladding, around openings, along corners, configure the placement of horizontal guides based on the configured design, shape and dimensions of the cladding panels, and Departing from the configured facade cladding, the places of attachment of the profiles to the structural elements are determined, by the intersection of the profiles with each other, the location of the mounting holes is determined through which the profiles pass into each other and are interconnected, each of the elements is assigned an individual identification number and sent to production for their manufacture, at the same time, before the output of the elements from production, the assigned individual identification number is applied to each of these elements, after which, in accordance with the configured design of the facade cladding and according to the individual identification numbers, the facade cladding is mounted to the structure. 2. The method according to claim 1, characterized in that the profile is C-shaped. 3. The method according to claim 1, characterized in that the profile is U-shaped. 4. The method according to claim 1, characterized in that the profile is made of a light steel thin-walled profile.

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