RU80477U1 - VERTICAL GUIDE FOR FASTENING FACING TILES OF MOUNTED VENTILATED FACADE - Google Patents

Abstract

The utility model relates to the field of industrial and civil construction, namely, to the designs of vertical rails for fastening the facing plates of the hinged ventilated facade (hereinafter, the NVF system).

The vertical guide for fastening the facing plates of the hinged ventilated facade consists of hollow profiles with bends installed sequentially in height with a gap between each other, each of which is rigidly connected from one end to the end of the vertical strut, which interacts with its other end in a sliding fit with the opposite end of the adjacent profile, that at the end of each profile, with which the rack interacts on a sliding landing, a locking element is installed, forming together with the inner profile surface a closed surface, at least part of the cross-section of which has the shape of the outer contour of the rack, and each rack is installed at its ends inside adjacent profiles and is tightly covered by the specified closed surface.

The utility model can significantly simplify the process of construction of illegal armed groups, increase the bearing capacity and reliability of the system and improve the aesthetic quality of the cladding. 4 ill.

Description

The utility model relates to the field of industrial and civil construction, namely, to the designs of vertical rails for fastening the facing plates of the hinged ventilated facade (hereinafter, the NVF system).

The design of a heat-insulating NVF in the general case consists of a layer of insulation that is attached directly to the facade and a power frame, which allows you to fasten the cladding plates with the formation of an air gap between the layer of insulation and cladding. As the facade facing materials, slabs of a wide variety of materials can be used: aluminum, steel, fiber cement, asbestos cement, granite, granite, etc.

Materials for the manufacture of NVF systems and for the manufacture of cladding panels have different coefficients of linear expansion. The annual temperature difference on the facade reaches 120-130 ° C. Different degrees of expansion and contraction of the cladding materials and the IWF system can lead to destruction of both the system and the cladding. To eliminate this drawback, over certain distances along the facade, it is necessary to arrange expansion joints (gaps) that divide the facade into “temperature blocks”, within which mutual deformations of various materials do not cause damage to the lining and system. Currently, this is achieved by cutting profiles along the line of the expansion joint with the formation of a through gap of 6-10 mm.

The closest analogue to the claimed utility model is a vertical guide for attaching NVF cladding plates, consisting of several U-shaped profiles arranged in series with a height gap with each other, characterized by the presence of stepped horizontal shelves and side shelves, with each of the profiles at one end connected to the end of the upright,

made in the form of a drainage profile and installed outside the profile, which, with its other end, interacts on a sliding fit with the opposite end of the adjacent profile (RU 60562 U1, description, publ. 27.01.2007).

The known solution has a number of disadvantages: cut profiles weaken the IWF system and reduce resistance to wind loads, additional brackets are required in the places where the profiles are cut, also ledges can form in the places where the profiles are cut, and the aesthetic qualities of the cladding deteriorate. This question is especially acute when there are large spans between the support points of vertical profiles and the absence of the very possibility of installing additional brackets.

The objective of the claimed utility model is to increase the bearing capacity of vertical profiles in the zone of expansion joints, eliminating the need to install additional brackets in the zone of expansion joints and eliminating the possibility of formation of ledges on the surface of the cladding in the zone of expansion joints.

The problem is solved in that the vertical guide for fastening the cladding plates of the hinged ventilated facade consists of hollow profiles arranged in succession with a gap between each other with bends at the edges, each of which is rigidly connected from one end to the end of the rack, which interacts with its other end a sliding landing with the opposite end of the adjacent profile, while at the end of each profile with which the rack interacts along the sliding landing, a locking element is installed, forming with adjacent to the inner surface of the profile is a closed surface, at least part of the cross-section of which has the shape of an external contour of the rack, and each rack is installed at its ends inside adjacent profiles and is tightly covered by the specified closed surface.

The sliding connection of the locking element with the end of the vertical rack protruding beyond the temperature block in the form of a console, as well as the rigid connection of the other end of the vertical rack inside the hollow profile, compensate for all temperature deformations of the NVF system with an increase in the bearing capacity of the vertical profile, without installing additional support brackets in the area expansion joint and guaranteed to prevent the formation of ledges on the surface of the cladding in places of expansion joints, as a result it increases design reliability, improves the aesthetic quality of the lining while simplifying the assembly process.

In a particular embodiment of the utility model, the profile can be made in a trapezoidal shape, and the rack with a trapezoidal contour, moreover, open.

The utility model is illustrated by drawings, where Fig. 1 is a general view of an illegal armed formation, Fig. 2 is a longitudinal section of a node 1, Fig. 3 is a section 1-1 in Fig. 2, Fig. 4 is a section 2-2 in Fig. .2.

Facade brackets 1 are fixed with dowels 2 on reinforced concrete belts 3 of interfloor ceilings. Horizontal profiles 4 are fixed to the front brackets.

The vertical profiles 5 of a trapezoidal shape with bends at the ends in their upper part are rigidly connected each to the lower end of the corresponding vertical strut 6 using expansion rivets 7 (section 1-1, Fig. 3). Each vertical post 6 has a trapezoidal contour in cross section open on the short side of the trapezoid.

The vertical rack 6 is rigidly connected to the horizontal profile 4 with the help of blind rivets 7, while the upper part of the vertical rack 6 cantilever protrudes above the horizontal profile 4.

At the lower end of the upstream vertical profile 5, with the help of blind rivets 7, a locking element 8 is fixed.

The installation of the locking element 8 in the lower part of the vertical profile 5 forms a closed surface having the form

the external contour of the vertical rack 6 and tightly covering the cantilever protruding part of the rack on all sides.

This connection prevents the possibility of horizontal displacement of the vertical profiles 5 relative to each other, without interfering with their vertical displacement relative to each other. Thus, a temperature seam is formed on the vertical profile, which does not reduce the bearing capacity of the profile itself.

The utility model can significantly simplify the construction technology of illegal armed groups, increase the bearing capacity and reliability of the system and improve the aesthetic quality of the cladding.

Claims (4)

1. A vertical guide for fastening the cladding plates of the hinged ventilated facade, consisting of hollow profiles arranged in succession with a gap between each other with bends at the edges, each of which is rigidly connected from one end to the end of the rack, which interacts with its other end along a sliding fit with the opposite end of the adjacent profile, characterized in that at the end of each profile with which the rack interacts on a sliding landing, a locking element is installed, forming a joint of the inner surface profile of the closed surface, and each rack is installed with their ends in adjacent sections and tightly covered by said closed surface. 2. The guide according to claim 1, characterized in that at least part of the cross section of the closed surface has the shape of the outer contour of the rack. 3. The guide according to claim 1, characterized in that each profile is made in a trapezoidal shape, and each rack has a trapezoidal contour. 4. The guide according to claim 1, characterized in that each rack has an open loop.