RU2268971C2 - Facade facing panel fastening set and facade assemblage method - Google Patents

Abstract

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

Description

The invention relates to the field of industrial and civil engineering, and in particular to devices for fastening cladding panels used to protect the walls of buildings from climatic and atmospheric influences and to give them aesthetic properties.

A known set of facade pendants containing brackets made in the form of an unequal rectangular corner, on the short shelf of which there are holes for mounting to the wall, and on the long shelf during the installation, a transition element is attached, equipped with an end surface for hanging the fastening elements of the cladding (RF patent No. 2146323 , publ. 10.03.2000, MKI E 04 F 13/00, 13/08, 13/12).

The known technical solution with a fairly simple design has an economically disadvantageous cross-sectional shape of the shelves of an unequal rectangular corner with the least bending resistance in the plane of a long shelf, which determines the high metal consumption of the structure and the cost of the product. At the same time, mounting the bracket requires the use of additional technological equipment and additional technological operations to finalize the mounted parts, which reduces the pace of installation and increases the cost of the work.

The closest technical solution in relation to the kit for attaching facade cladding panels is a device for attaching cladding panels containing a support unit in the form of a fixed bracket with a support platform, inside which a movable insert with an end surface is installed, and a supporting profile (guide), with hinged elements ( with clamps) for fastening the facing panels, mounted on the end surface of the insert (avenue of the company "DIAT", Ventilated facades of the DIAT system, 2001).

However, the known technical solution with sufficiently high technical and operational characteristics has an increased metal consumption and manufacturing cost, determined by the low bearing properties of open contours of the transverse sections of the structural members. At the same time, the installation of the structure requires the use of original tools for assembling the support nodes, and the connection of the remaining structural elements with each other — inserts and the bearing profile (guides), the bearing profile and hanging elements (clamps) for attaching the facing panels — requires additional technological operations during installation to finalize the assembled parts, which reduces the pace of installation and increases the cost of work in general.

There is a method of fastening facade cladding panels, including fixing to the wall a fixed element of the support node, fixing on the end surface of the support node U-shaped in cross section of the bearing profile and mounted elements on the bearing profile, by means of which the facade panels are fixed (prospectus of the company "DIAT", Ventilated facades of the DIAT system, 2001).

The basis of the invention is the task of developing a kit for fastening facade cladding panels and a method of mounting the facade with cladding boards that will increase the load-bearing capacity of the kit, use any panel materials as a cladding without significant structural refinement, reduce the complexity and cost of installation of the assembly of the kit and cladding panels due to reduce technological operations for the completion of parts during installation, increase the range of regulation of fastening of cladding panels s from surfaces exposed wall, in order to compensate unevenness of the surfaces and the planarity compliance cladding, as well as improving stability of the system to the action of transverse loads.

, где А - длина одной из сторон фасадной облицовочной панели, a n - целое число, группы отверстий, состоящие, по крайней мере, из трех отверстий, для крепления несущего профиля на опорном узле и навесных элементов на несущем профиле, при этом отверстия выполнены вытянутой формы, а в торцевой площадке выдвижного элемента и в навесном элементе выполнены отверстия по числу и форме отверстий в группе отверстий несущего профиля, большие оси которых перекрещиваются с большими осями соответствующих отверстий несущего профиля и отверстий торцевой площадки выдвижного элемента.The task is achieved by the fact that in the known kit for mounting facade cladding panels containing support nodes, bearing profiles, hinged elements and fasteners, each support node is made in the form of a two-element telescopic bracket, which includes the bracket itself, on the free end of the shelf of which the support a platform for mounting the bracket to the wall, and a sliding insert with an end plate for mounting the supporting profile, each of which is made U-shaped in cross section and in each hinged element mounting holes are made for fastening it to the supporting profile, in the bottom of the supporting profile made in increments equal to

, where A is the length of one of the sides of the facade cladding panel, an is an integer, groups of holes, consisting of at least three holes, for fastening the bearing profile on the support node and the hinged elements on the bearing profile, while the holes are elongated and holes in the end face of the drawer and in the hinged element are made in the number and shape of holes in the group of holes of the bearing profile, the large axes of which intersect with the large axes of the corresponding holes of the bearing profile and holes of the end plate schadki sliding element.

The kit can be equipped with clamping washers for heaters installed on the shelf bracket.

The hinged element can be made in the form of a bracket of a U-shaped profile with an axis connecting the side walls of the hinged element, while in the bottom of the hinged element holes are made in the number and shape of holes in the corresponding group of holes of the bearing profile, the large axes of which intersect with the large axes of the corresponding holes on the supporting profile, and the axis is parallel to the bottom of the hinged element.

, где А - длина одной из сторон фасадной облицовочной панели, a n - целое число, на стене, подвергаемой облицовке, на линиях координатной сетки в каждом диапазоне длин закрепляемых несущих профилей, устанавливают, по крайней мере, один опорный узел на расстоянии от узла сетки, равном или кратном шагу Н групп отверстий на несущем профиле, к опорным узлам крепят несущие профили параллельно линии координатной сетки с перекрещиванием отверстий вытянутой формы торцевой площадки и соответствующей группы отверстий несущего профиля и фиксируют их в перекрестиях крепежными элементами, затем к несущему профилю в соответствии с узлами координатной сетки крепят навесные элементы с перекрещиванием группы отверстий навесных элементов и соответствующей группы отверстий несущего профиля и фиксируют их в перекрестиях крепежными элементами.The task is also achieved through the use of the method of mounting the facade with cladding panels, in which, taking into account the dimensions of the wall being cladded, the coordinate grid is preliminarily calculated in accordance with the dimensions of the cladding panels and load-bearing profiles with groups of holes in their bottom are used with a step equal to

, where A is the length of one of the sides of the facade cladding panel, an is an integer, at least one support node is installed at a distance from the grid node on the grid exposed to the cladding lines in each length range of fixed supporting profiles, equal to or a multiple step of the H groups of holes on the supporting profile, the supporting profiles are fastened to the supporting nodes parallel to the grid line with the intersection of the elongated holes of the end platform and the corresponding group of holes of the supporting profile and fixed in erekrestiyah fastening elements, then to the carrier profile in accordance with the grid nodes attached hinged elements hinged crossed band elements and orifices of the corresponding group profile bearing holes and fix them in the crosshairs fasteners.

The supporting profiles can be oriented either in the horizontal direction, or in the vertical direction, or in the horizontal and vertical directions.

The invention is illustrated by drawings, where figure 1 shows the design of the kit for attaching the facing panels; figure 2 is a horizontal section of the design of the kit for attaching the facing panels; figure 3 is a view of K on the clamping washer of figure 1; figure 4 - reference node with reference pads made in the form of individual parts; figure 5 - view E of figure 1 (installation of the clamping washer); in Fig.6 is a view of M on the hinged element of Fig.1; Fig.7 - facade in assembled form; on Fig - options for making holes on the supporting profile.

The kit for fastening the facade cladding panels contains support nodes 1 and supporting profiles 2 with hinged elements 3 or 4 for fastening the facade cladding panels 5, rigidly mounted on the end platforms of 6 pull-out inserts 7 of the support nodes.

, где А - длина одной из сторон фасадной облицовочной панели, а n - целое число, группы отверстий 8 (11), состоящие, по крайней мере, из трех отверстий, для крепления несущего профиля 2 на опорном узле 1 и навесных элементов 3 или 4 на несущем профиле 2, при этом отверстия выполнены вытянутой формы, а в торцевой площадке 6 выдвижной вставки 7 и в навесном элементе 3 или 4 выполнены отверстия по числу и форме отверстий в группе отверстий несущего профиля, большие оси которых перекрещиваются с большими осями соответствующих отверстий несущего профиля и отверстий торцевой площадки выдвижного элемента.In the bottom of the supporting profile 2 are made with a step equal to

, where A is the length of one of the sides of the facade cladding panel, and n is an integer, a group of holes 8 (11), consisting of at least three holes, for mounting the supporting profile 2 on the support node 1 and mounted elements 3 or 4 on the supporting profile 2, while the holes are elongated, and in the end area 6 of the sliding insert 7 and in the hinged element 3 or 4 holes are made in the number and shape of holes in the group of holes of the bearing profile, the large axes of which intersect with the large axes of the corresponding holes of the carrier profile and from versts of the end area of the drawer.

The large axes of the groups of openings of an elongated shape of the bearing profile and the elements mating with it (end plate and attachments) are closed in a polygon, outlining the core stability of the cross-section of the bearing pads.

The width of the elongated holes of the supporting profile and the elements mating with it (end plate and attachments) is 0.3-1.0 mm smaller than the internal diameter of the thread of the fastener.

The system of intersecting openings (on the guide profile, end plate and hinged elements) allows for the installation of moving the bearing profile and hinged elements in the vertical and horizontal planes and, therefore, to adjust the facing panels when installed in the vertical and horizontal planes.

To press the heat-insulating plates against the wall, the kit for attaching the cladding panels is equipped with a clamping washer 9 located on the shelf of the bracket 10 of the support unit 1.

To ensure the use of the device with various facing materials, it is equipped with an additional, interchangeable with another type of mounted elements, mounted element 4, made in the form of a U-shaped profile in cross section. The side walls of the hinged element are connected by an axis 12 located parallel to the base of the hinged element. On the basis of the holes are made of an elongated shape, the longitudinal axes of which are located at an angle α to the longitudinal axis of the hinged element and are oriented crosswise to the longitudinal axes of the holes of an elongated shape on the supporting profile.

The supporting profile 2 is made, for example, in the form of a U-shaped profile in cross section.

The support unit 1 consists of a two-element telescopic bracket, including the bracket 10 itself, on the free end of the shelf of which a support platform 14 for fastening the bracket to the wall is made, and a sliding insert 7 with an end plate 6, the profile of which in cross section is identical to the profile of the bracket shelf, and the assembly alignment of facing panels located in a plane perpendicular to the surface exposed to facing (along the longitudinal axis of the support node) in the form of intersecting openings of an elongated shape 15 n and on the side walls of the bracket shelf and elongated holes 16 on the side walls of the drawer insert.

Cross sections of a bracket shelf and a sliding insert are made in the form of thin-walled rods with a rigidly closed profile.

The bracket and the sliding insert are provided with stiffeners 17 and 18, respectively, passing along the ribs of their profile and / or which are simultaneously stiffeners. The stiffeners of the bracket are made in pairs and symmetrically with respect to the transverse axes of the surfaces of the shelves with a direction to the outer side of the contour of the shelves and the location at its vertices.

The surfaces of the bracket shelf and the sliding insert in cross section form a triangular (including equilateral), either rectangular or square contour.

The profile of the bracket is closed along the contour, for example, by contact welding of two sites 19 located outside the geometric parameters of the profile contour and formed by two walls of the bracket, made wider by the size of the corresponding site.

The profile of the sliding insert is closed, for example, by contact welding of two pads 20 located within the geometrical parameters of the profile contour and formed by one bend inside the contour of the insert walls and another bend to the outside along the entire length of the insert until the pads touch in the transverse plane of symmetry of the profile.

The outer perimeter of the cross-sectional profile of the sliding insert is 0.7-0.9 of the inner perimeter of the cross-sectional profile of the bracket shelf.

To compensate for the bending moment from external loads (from the weight of the cladding panels, climatic and atmospheric influences), the supporting unit is equipped with U-shaped cross-section jumpers 21, each of which is installed between the supporting platform and the outer surface of the bracket shelves at an angle of 40-45 °, this one end of the jumper is made in one piece with the shelf of the fixed bracket, and the other, free end, the jumper is rigidly connected to the supporting platform.

The number of jumpers compensating the bending moment from external loads is equal to the number of surfaces forming the profile of the shelf of the fixed bracket in the cross section, or a multiple of the number of surfaces forming the profile of the shelf in the cross section.

The jumpers, compensating for the bending moment from external loads, can be made in the form of separate parts with platforms at their ends, one of which is rigidly connected to the supporting platform, and the other to the outer surface of the shelf.

The supporting pads 14 are formed from part of the surfaces forming the profile of the shelf of the bracket, separated along the stiffeners and bent outward at an angle of 85-92 ° to the outer surfaces of the shelf.

Holes 22 are made on the supporting pads 14 for attaching the bracket to the wall of the building, for example, with anchor bolts 34. The longitudinal axis of the holes of the supporting pads formed from part of the surfaces forming a triangular profile of the shelf intersect at an angle of 80-110 ° (as a special case).

The number of supporting platforms is either equal to the number of surfaces forming the profile of the bracket shelf in cross section, or a multiple of the number of surfaces forming the profile of the bracket shelf in cross section, while the number of supporting platforms should not be less than two.

The supporting pads 14 can be made in the form of a separate part 23 and are rigidly connected to the shelf 24 by welds made at the joints of the ribs of the upper wall of the shelf and cutouts 25 under them at the stiffening ribs 26 of the supporting surface, and in the lower part of the weld is formed between the rib and the plane reference area.

To provide additional rigidity in the design of the support unit, the pressure plates 27 with the mounting holes 28 repeating the shape of the support platforms are installed with the possibility of gripping the stiffeners 29 of the support platforms 7. A U-shaped recess 30 is made in the lower part of the pressure plate, the width and shape of the bottom of which corresponds to the width and shape of the jumper 21, and the length of the sides of the recess is 25-30 mm A rectangular protrusion 31 is made on the upper part of the pressure plate between the stiffeners, bent behind the front side of the support platform to a height of 2-5 mm. The shape and size of the mounting holes of the pressure plate are identical to the shape and size of the mounting holes of the support platform, designed to mount the support node to the wall of the building.

At the end face of the sliding insert 7, at least two holes 11 are made, the longitudinal axes of which intersect at an angle of 110-120 °.

The end face 6 of the sliding insert 7 is formed from part of the surfaces forming the profile of the sliding element, separated along the profile ribs and bent outward at an angle of 85-92 ° to the outer surfaces of the sliding insert.

The hinged element for fixing the cladding panels (clamps) 3 comprises a platform 32 with fixing L-shaped elements (antennae) 33 mirrored relative to the horizontal axis, one of whose ends is made integrally with the surface of the platform, and the other is sequentially bent in a plane perpendicular to the platform and parallel to the platform plane at a distance equal to the thickness of the facing panel, forming seats for the facing panels, and the fixing element in the plan is made in the form e trapezoid, the base of which is the base of the fixing element, and the angle of inclination of the side walls of the element is selected from the condition of creating the element as a beam of equal bending resistance. The smaller base of the trapezoid may be rounded in radius.

The supporting unit, the supporting profile, the hinged and fasteners are made of stainless steel.

Installation of the facade with cladding panels is carried out in the following order.

, где А - высота фасадной облицовочной панели.Taking into account the dimensions of the wall exposed to the cladding, the coordinate grid is preliminarily calculated in accordance with the dimensions of the cladding panels and applied, for example, to the installation drawing. The required number of support nodes is calculated. For fastening of facing panels, supporting profiles are used with groups of holes in their bottom part in increments equal to or multiple, for example,

where A is the height of the facade cladding panel.

On the wall exposed to the lining, on the grid lines, taking into account the lengths of each fixed supporting profile and in the length range of each fixed supporting element, at least one reference node is installed between the grid coordinates at a distance from the grid node, equal to or a multiple of H groups of holes on the supporting profile.

Bearing profiles are attached to the support nodes. In this case, the bearing profiles are oriented, for example, in the vertical direction, parallel to the coordinate grid line with crossing the holes of the elongated shape of the end pad and the corresponding group of holes of the bearing profile and fix them in the crosshairs with fasteners.

Then, hinged elements are attached to each bearing profile in accordance with the nodes of the coordinate grid with the intersection of the group of holes of the hinged elements and the corresponding group of holes of the bearing profile and fixed by cross fasteners.

Then fasten by means of hinged elements front facing panels.

Bearing profiles can also be oriented in the horizontal direction, in this case, the group of holes on the guide is performed with a step corresponding to the length of the facing panel. Support profiles can be oriented simultaneously in horizontal and vertical directions.

Claims (5)

1. A kit for attaching facade cladding panels containing load-bearing U-shaped profiles, hinged elements, fasteners, support nodes, each of which is made in the form of a two-element telescopic bracket, on the free end of the shelf of which there is a support platform for mounting the bracket to the wall, and a retractable insert with an end pad for fastening the supporting profile, mounting holes are made in each of the mounted elements for attaching it to the supporting U-shaped profile, while in the bottom of the supporting At least three elongated holes are made for the U-shaped profile for attaching the supporting profile to the support unit and for attaching the attachments to the supporting U-shaped profile, and holes are made in the end face of the sliding insert and in the mounted element in the number and profile of the holes of the corresponding groups of holes of the supporting U-shaped profile, the large axes of which are located with the intersection of the relatively large axes of the corresponding holes in the hinged element when attaching the supporting U-shaped profile to the support y assembly and attachment to the carrier element U-shaped profile. 2. The kit according to claim 1, which is made with clamping washers for insulation installed on the shelf bracket. 3. The kit according to claim 1, in which the hinged element is made in the form of a bracket of a U-shaped profile with a bottom part and an axis installed between the side walls of the hinged element, while holes in the bottom part of the hinged element are made according to the number and shape of holes of the corresponding groups of holes bearing profile, the large axes of which are located with the intersection of the relatively large axes of the corresponding holes on the bearing profile, and the axis of the bracket is parallel to the bottom of the hinged element. 4. The method of mounting the kit for fastening the facade cladding panels, including mounting the support unit to the wall of the bracket, fixing the U-shaped supporting profile on the end surface of the supporting unit, the hinged elements on the supporting profile and securing the facade cladding panels with the help of hinged elements; a grid in accordance with the dimensions of the cladding panels, on the wall exposed to the cladding, on the grid lines in each range of lengths of fixed load-bearing Ofile, install at least one support node at a distance from the grid node equal to or a multiple of the hole groups on the supporting U-shaped profile, support profiles are attached to the support nodes parallel to the coordinate grid lines with the intersection of the major axes of the elongated end-hole holes and large the axes of the elongated holes to the corresponding group of holes of the supporting U-shaped profile and fix them in the crosshairs with fasteners, then to the supporting profile in accordance with the nodes of the coordinate grid are mounted elements crossed with the major axes of the elongated holes band holes hinged elements and their respective major axes of the elongated holes apertures group bearing a U-shaped profile and fix them in the crosshairs fasteners. 5. The method according to claim 4, in which the bearing profiles are oriented in the horizontal direction, or in the vertical direction, or in the horizontal and vertical directions.

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