RU72248U1 - FRAME FOR FASTENING FACADE FACING PLATES AND PANELS - Google Patents

Abstract

1. Frame for attaching facade cladding plates and panels, containing horizontally and vertically arranged guide profiles, the latter being made in a U-shaped section with shelves having bends, as well as bearing and support brackets for fixing to the building wall, characterized in that the bearing brackets are V-shaped, and the supporting brackets are L-shaped, while all the guide profiles of the frame are U-shaped in cross section with shelves having bends inward, and vertically located on ravlyaetsya profiles are rigidly fixed to the support bracket and movable along the support kronshteynov.2. The frame according to claim 1, characterized in that the horizontally arranged guide profiles in the place of support on the vertically arranged guide profiles are cut to the width of the shelf so that the walls of the vertically and horizontally arranged guide profiles are in the same plane. The frame according to claim 1, characterized in that all the brackets are attached to the supporting walls of the buildings using dowel joints. The frame according to claim 1, characterized in that the supporting and supporting brackets are made by trimming the profile shelves, while the profile wall is kept intact, and the shelves are interconnected with overlapping exhaust rivets or self-tapping screws; or clipped; 5. The frame according to claim 1, characterized in that the vertically arranged guide profiles are mounted movably along the axis of the vertical guide on the support brackets by the setting by the shelves of the profile of the U-shaped section of the side surfaces to

Description

The proposed technical solution of the utility model relates to the field of civil and housing construction, namely, devices for fastening facade cladding plates and panels used to protect walls and insulation layers from climatic and atmospheric influences and increase the architectural expressiveness of buildings and structures.

The device is intended for facing walls of buildings in the form of panels made of composite polymer materials. It is also possible to use for facing facades cassette panels made of aluminum alloys, galvanized cold-rolled steel, aluminum composites and panels made of asbestos-cement and other similar sheet materials. The design is intended both for cold cladding of a building, and for facade heat-insulating systems with an air gap.

Currently, when constructing ventilated facades with mineral wool insulation on the outside of the load-bearing wall, various structural solutions are used (RF patent No. 2249660, 2005; RF patent No. 2180935, 2002, RF patent No. 2229573, 2004, E04F 13/08).

These solutions differ in the material of the frame structures: aluminum alloys, corrosion-resistant steel, galvanized cold-rolled steel, and in a variety of design solutions.

All these solutions are united by one technological approach - the manufacture of all elements of the facade frame at the factory and their assembly at the construction site. Such an approach is good when the bearing walls have extreme deviations within the framework regulated by building codes and state standards. In a real situation, most often deviations from the flatness of an erected reinforced concrete or brick wall significantly exceed normalized ones. To eliminate the influence of deviations and leveling (leveling) of the wall surface, various constructive measures are provided in the brackets of the carcasses of the cladding to adjust the plane of the facade. These are oval holes, slots, extension cords, telescopic brackets, extendable consoles (RF patent No. 2268972, 2006, RF patent No. 2268971, 2006).

The closest analogue to the proposed design is the frame formed by horizontally and vertically arranged profiles (RF patent No. 2229573, 2004, E04F 13/08). The frame is made of metal and mounted on brackets mounted on the wall of the building. Vertically located profiles have a U-shaped cross-section with a wall and two shelves having bends at the edges of the outward profile, with which a vertically located profile is attached to the shelf of the horizontal profile.

However, this design does not have sufficient reserves, ensuring the alignment of the roughness of the bearing walls of the facade, and especially when working with facades having a configuration of increased complexity.

Often during construction, the deviations of the walls from the theoretical plane are so great that there is not enough structural margin embedded in the frame elements for straightening the surface, often very limited. This leads to the need to build brackets using extension cords, and sometimes simply using improvised tools. This increases the deformability of the brackets and reduces their bearing capacity, as well as the reliability of the entire frame of the cladding as a whole. The use of facade systems frames made of elements of full factory readiness is not always justified when mounting on the walls of newly constructed buildings with significant deviations from the design position, as well as during reconstruction and overhaul of old buildings.

The utility model is based on the task of developing a frame for fastening facade cladding panels or panels, which will increase the bearing capacity of the frame, simplify installation and improve the quality of the finished facade cladding of the building.

The technical result of the utility model is a simple manufacturing technology of all frame elements and their connections; the possibility of fitting frame elements to the real deviations of the walls of buildings. The technical result is achieved by choosing the most effective type of thin-walled profile for this design, structural design features and layout of the frame.

The technical result is achieved in that the frame for fastening the facade cladding plates and panels contains horizontally and vertically arranged guide profiles, the latter being made in a U-shaped section with shelves having bends, as well as bearing and supporting brackets for fixing to the building wall. The frame is characterized in that the supporting brackets are V-shaped, and the supporting brackets are L-shaped. That’s all

the guide profiles of the frame are made in a U-shape in cross section with shelves having folds inward, and the vertically located guide profiles are rigidly fixed to the supporting brackets and movably along the support brackets.

In a particular embodiment, the frame is characterized in that the horizontally arranged guide profiles in the place of support on the vertically arranged guide profiles are cut to the width of the shelf so that the walls of the vertically and horizontally arranged guide profiles are in the same plane.

All brackets can be attached to the supporting walls of buildings, for example, using dowel joints.

In a specific embodiment, the supporting and supporting brackets can be made by trimming the profile shelves, while the profile wall is kept intact, and the shelves are interconnected with an overlap by blind rivets or self-tapping screws. At the same time, in the places of bending of the bracket elements, the bends of the shelves are bent to the walls or trimmed.

To ensure alignment of the irregularities of the bearing walls of the facade, vertically arranged guide profiles are mounted movably along the axis of the vertical guide on the support brackets by grasping the profile of the U-shaped section of the side surfaces of the bracket with flanges using exhaust rivets or self-tapping screws, while stiffening elements of the shelves of the vertically located profile locally bent or trimmed.

Thin-walled profiles of a U-shaped section in the cross section are used as the main supporting element for the manufacture of the facade structure frame - universal bent profiles, which are also used for other types of building structures. These profiles are very cost effective. They are made of galvanized sheet with a thickness of 0.55-0.7 mm and have a developed section h = 40-60 mm, b = 50-80 mm. In combination with stiffeners (longitudinal corrugations) applied to the wall and shelves and additional folds of the shelves, providing additional stiffness of the profile elements, they have increased bearing capacity.

Other advantages of the frame include the symmetry of the elements and the absence of eccentricities when transmitting forces in nodes; as well as the effective design of the support bracket, which works only with longitudinal forces with

slight influence of bending moments, which also determines the economy of the frame.

The static diagram of the frame, the structural form of the brackets, nodes and connections provides an optimal distribution of internal forces in the frame.

In more detail, the frame is described below with reference to the drawing (figure 1), which shows a perspective view of the frame.

The bearing bracket 1 has a V-shape and takes the dead weight of the carcass and cladding design along the entire height of the vertically arranged guide profile 3, as well as the support reaction from the wind load and transfers these forces to the bearing walls of the building using anchor devices 6. The support brackets 2 have L-shaped and serve to transmit only horizontal reactions from the wind load. To the brackets with the help of blind rivets or self-tapping screws 7, vertically arranged guide profiles 3 are attached and, if required by the project, horizontally located guide profiles 4.

All frame elements can be manufactured and assembled directly at the construction site. In this case, the shape and extension of the bracket console are commensurate with the actual wall configuration, which is especially important in the repair and reconstruction of buildings. Departure of the bracket console is determined by the design reference of the cladding surface and deviations from the vertical plane of the wall of the building. The V-shape of the supporting bracket also allows you to additionally change the extension of its console by changing the height of the base of the bracket attached to the wall, and provides the ability to change the height of the mounting of the guide profiles to it. In addition, the leveling of the wall surface is also possible by adjusting the mounting of vertically arranged guide profiles to the bracket. This greatly simplifies the installation of the frame, and cladding with tolerances not exceeding the maximum deviations regulated by building codes and rules.

The bearing part of the frame of the facade system, onto which the cladding is directly attached, consists of guides of thin-walled bent profiles of the U-shaped section having stiffeners along the edges, in the form of bends of the shelves inward. Guide profiles are fixed to the wall of the building using brackets. The brackets are made of the same profile and are made in the form of two main types, conventionally called supporting and supporting brackets. Brackets are made by cutting from a bent profile and riveting shelves

among themselves with an overlap with exhaust rivets. Departures of the console brackets of the facade system are selected individually in accordance with the profile of the wall.

The supporting brackets, V-shaped, are fixed to the wall plane at the bends parallel to the wall plane by two anchor devices 6. The supporting L-shaped brackets are attached to the wall using anchor devices 6 installed in the vertical element of the bracket. In the places of fastening of the vertically located guide frame profiles on the brackets, the stiffening elements of the shelves (narrow bends inwards) of the U-shaped sections in section are pre-bent and pressed to the shelves or locally trimmed. At this point, vertically arranged guide profiles are mounted on the bracket console. In this case, the profile shelves cover the shelf of the bracket console, and are attached to it by exhaust rivets or self-tapping screws 7.

In those cases when the layout of the facade panels has a complex shape (for example, the placement of panels in a checkerboard pattern), horizontally located guides from the same profile are installed on vertically located guide frame profiles. This allows you to place panels on the facade surface with dressing of joints, both vertically and horizontally, forming a pattern on the surface of the wall in accordance with the plan of the architect.

To comply with a single supporting plane of the frame, horizontally arranged guides are made with cut profile walls so that the shelves of the profiles of vertical elements and horizontally located profiles are located approximately in the same plane with overlapping each other.

The design is intended both for cold cladding of a building, and for facade heat-insulating systems with an air gap.

The proposed frame is tested in reality and showed simplicity and ease of installation and operation.

Claims (5)

1. Frame for attaching facade cladding plates and panels, containing horizontally and vertically arranged guide profiles, the latter being made in a U-shaped section with shelves having bends, as well as bearing and support brackets for fixing to the building wall, characterized in that the bearing brackets are V-shaped, and the supporting brackets are L-shaped, while all the guide profiles of the frame are U-shaped in cross section with shelves having bends inward, and vertically located on ravlyaetsya profiles are rigidly fixed to the support bracket and movable along the support brackets. 2. The frame according to claim 1, characterized in that the horizontally arranged guide profiles in the place of support on the vertically arranged guide profiles are cut to the width of the shelf so that the walls of the vertically and horizontally arranged guide profiles are in the same plane. 3. The frame according to claim 1, characterized in that all the brackets are attached to the supporting walls of the buildings using dowel joints. 4. The frame according to claim 1, characterized in that the supporting and supporting brackets are made by trimming the shelves of the profile, while the wall of the profile is kept intact, and the shelves are interconnected with overlapping exhaust rivets or self-tapping screws, in the places where the bracket elements are bent, the bends of the shelves are bent to the walls or clipped; 5. The frame according to claim 1, characterized in that the vertically arranged guide profiles are mounted movably along the axis of the vertical guide on the support brackets by the gripping by the profile shelves of the U-shaped section of the side surfaces of the bracket using exhaust rivets or self-tapping screws, while at the contact points the stiffness of the shelves of a vertically located profile is locally bent or trimmed.