RU223991U1 - Support post for the suspension system of the building facade for installing facing lamellas on the side - Google Patents

Abstract

The utility model relates to the field of building structures intended for installation on building facades as a suspension system that specifies the position of the cladding lamellas of the external cladding of the facade. The support post of the building façade suspension system for installing lamellas includes a fastening strip that is flat in cross section with brackets intended for fastening the lamellas in a kneeling position. In this case, the brackets are made of sheet metal and are angle profiles. Each bracket is mounted on a fastening bar so that the first shelf and the fastening bar are overlapped, with the first shelf having the shape of a rectangular trapezoid, the second shelf, intended for fastening the lamellas, having the shape of a rectangle, and the edge of the bracket runs along a common side with the inclined side of the trapezoid. Moreover, when organizing an overlap connection, the edge of the first flange of each bracket, spaced from its edge, is located along the longitudinal edges of the fastening strip. The angle of the first flange adjacent to the 90° angle at the base of the trapezoid is 84°. The technical problem is aimed at expanding the arsenal of support posts that provide the ability to attach facing lamellas while maintaining the ability to ventilate the building facade while simplifying the design due to the shape of the brackets. 1 salary f-ly, 3 ill.

Description

The utility model relates to the field of building structures intended for installation on building facades as a suspension system that specifies the position of the cladding lamellas of the external cladding of the facade.

One of the technical problems associated with the use of facing lamellas is the search for an alternative technical solution to the existing racks of building facade suspension systems, which ensure the arrangement of a ventilated facade of residential, industrial, and office buildings.

In a suspended façade system with cladding with horizontally oriented lamellas at a distance, the structural element that sets the identical position of the lamellas with deviation from the vertical plane of the wall is the so-called comb or, in other words, a support post as part of the suspension system, which also determines the humidity and thermal conditions facade of the building.

The following designs of support posts for attaching facing lamellas are known from the prior art.

From the description of the patent RU 2676794 (published on January 11, 2019), a support post for fastening façade lamellas is known, made of a channel, on the shelves of which guide brackets in the form of protrusions downwards are made with an identical pitch. Each bracket is designed to install a corresponding horizontally oriented lamella at an appropriate angle relative to the vertical plane. Two symmetrically adopted racks with lamellas form the façade section.

The well-known support post for fastening facade panels, made of channel bars, has a complex shaped profile. Taking into account the curly cutouts of the protrusions on the side flanges of the channel, the implementation of such a rack is associated with metal waste generated when cutting the metal profile.

From the description of the patent document EP 2278090 (published on January 26, 2011), a support column for a facade suspension system is known, consisting of a fastening profile and brackets installed along the specified profile. The brackets are made in three configurations: for the upper lamellas, for the lower lamellas and for the intermediate lamellas. In this case, the shape of the brackets for the intermediate lamellas includes an element for both the upper and lower lamellas. Such elements are the upper and lower shelves, coupled with a wall made with a hole for fasteners that ensure fastening of the bracket to the corresponding profile. The upper and lower shelves are made with an inclination relative to the vertical position of the wall, which sets the position of the lamellas relative to the vertical plane of the wall (building facade). The lower flange is made stepped, and the upper flange is made with an upward-facing edge, oriented in the direction coinciding with the longitudinal direction of the lamellas. This shape of the shelves ensures that a corresponding intermediate lamella is retained between the lower flange of the upper bracket and the upper flange of the lower bracket. The upper and lower brackets are made of the wall and the lower and upper flanges, respectively.

The described design is characterized by complexity of manufacture, because It is, firstly, a system with a set of various brackets; secondly, each bracket has a shape that is difficult to manufacture.

From the description of the patent DE 20313242 (published on October 23, 2003), a support column for a facade suspension system is known, which is a fastening strip and brackets installed on this strip with an identical pitch and intended for fastening the lamellas. Each bracket is a bent metal profile, which has a symmetrical design when unfolded, such that the middle part is a shelf, and the side parts are shaped walls. The shape of the walls determines the inclined position of the lamellas relative to the vertical surface of the facade. In addition, the shape of the brackets is made with protruding parts with roundings for the application of lamellas of a congruent shape.

The design of this support post of the suspension system is complex due to the use of brackets of a complex configuration, having protrusions and roundings.

The support stand from the description of the patent DE 20313242 was chosen as the closest analogue to the claimed device.

Based on the foregoing, the technical problem solved by the proposed utility model is aimed at expanding the arsenal of support posts that provide the ability to attach facing lamellas while maintaining the ability to ventilate the building facade while simplifying the design due to the shape of the brackets.

The proposed support post for the suspension system of a building façade for installing lamellas includes a fastening strip with brackets designed for fastening the lamellas in a kneeling position. What is new in the utility model is that the brackets are made of sheet metal in the form of corner profiles, with each bracket mounted on a fastening strip so that the first shelf and the fastening strip are overlapped, with the first shelf having the shape of a rectangular trapezoid, the second shelf, intended for fastening lamellas, has the shape of a rectangle, and the edge of the bracket runs along a common side with the inclined side of the trapezoid, and when organizing an overlap connection, the side of the first shelf of each bracket, spaced from its edge, is located along the longitudinal edges of the plank.

The preferred variant of the utility model is to design the brackets in such a way that the angle of the first shelf adjacent to the 90° angle at the base of the trapezoid is 84°.

A fastening strip with brackets installed on it, having the shape of an angle profile of a certain configuration, is an alternative technical solution to the well-known suspension system racks for facade lamellas.

The design features of the proposed support stand are explained in the drawings:

in fig. 1 is a side view of the support post in a vertical position from the inside of the mounting strip;

in fig. 2 – fragment of a support post in a vertical position with several brackets on the side of the first shelf of the brackets;

in fig. 3 – bracket in the form of a flat figure (bracket development).

The support post, intended for direct or indirect fastening to the wall of a building as part of a suspension system for installing facing lamellas, contains a fastening strip 1 and brackets 2 installed on this platinum.

The mounting strip 1 and brackets 2 can be made of galvanized cold-rolled steel (grade 08 ps, GOST 1050-2013).

This material makes it possible to make brackets 2 from an angle profile, the configuration of which is clearly shown in figure 3.

For an inclined position of horizontally oriented finishing lamellas on the facade of a building, the configuration of brackets 2 is designed to install the lamellas at a certain angle of inclination relative to the plane of the wall.

Making the brackets 2 in the form of an angle profile makes it possible to use:

the first shelf of each bracket for installation on the mounting strip with an overlap;

a second shelf for potential fastening of the slats at an angle determined by the bracket configuration.

Figure 3 (expanded drawing of the bracket) clearly illustrates the shape of the bracket, which provides the function of a support post.

When making the first shelf 3 of the bracket 2 in the shape of a rectangular trapezoid, having an inclined side, which is the common side with the rectangle, the chosen shape of the second shelf 4 of the bracket 2, it becomes possible to organize the desired angle of inclination.

The optimal angle of inclination of the facing lamellas (α) is 6° degrees. This value of the angle of inclination ensures the necessary and sufficient ventilation of the building facade, which is known from the technical literature and, therefore, is not substantiated in this description.

To organize the inclined position of the brackets 2 on the fastening bar 1, each bracket, provided it is connected to the fastening bar 2 with an overlap, is oriented so that the edge 5 of the first shelf, spaced from the edge 6 of the bracket 2, is located along the edges of the fastening bar 1. Therefore, by rotating the bracket 2 in the plane of the fastening strip 2 until the edge of the first shelf 3 and the fastening strip 1 are parallel, the second shelf 4 of the bracket 2 occupies an inclined position to the fastening strip 1, intended for fastening on the knowledge façade. Thus, if the first shelf 3 of the bracket 2 is made with an angle at the base of the rectangular trapezoid of 84°, then the second shelf 4 of the bracket 2 has an inclination of 6°.

The implementation of the utility model is considered with the following dimensions of the structural elements that make up the support post:

the fastening strip is made of a metal blank with one rib: strip width 40 mm, height 1800 mm;

each bracket is made of a metal blank, the first shelf is in the shape of a rectangular trapezoid with an angle of 84° at the base; the bases of the trapezoid are 21 mm and 38.9 mm, the inclined side of the trapezoid corresponding to the edge of the corner profile of the bracket is 170 mm; the second shelf is 40 mm wide.

Using threaded fasteners 7, 10 brackets are secured to a mounting plate 1800 mm high.

Installation of brackets 2 is carried out by overlapping the fastening strip 1 and the first shelf 3 of each bracket, provided that the brackets 2 are sequentially arranged one after the other, butting the first shelves along the height of the strip. Thus, in the proposed utility model, the shape of the brackets brings an additional advantage, namely that the height of the first shelf (corresponding to the side of the trapezoid at right angles to the base) sets the step of the potential location of the lamellas without the need for marking when the brackets are spaced apart along the height of the plank.

The support post is brought into the mounting position and installed on the façade of buildings in a standard manner, like other elements of the building's suspension system, using means known from the prior art. The slats 8 are installed by attaching each bracket 2 to the surface of the second shelf 4 (see Fig. 1).

Based on the above, it follows that the support post, otherwise called the façade comb, performs its function:

sets the position of the facing lamellas of the external cladding of the facade with an identical angle of inclination according to the “blinds” principle;

ensures façade ventilation due to gaps of identical lamella gaps

At the same time, the use of a support post, due to the configuration of the brackets and their location on the mounting strip, provides for such an arrangement of lamellas that prevents atmospheric moisture from entering the gap between the lamellas during any rain, including high-intensity oblique rain.

In addition, by varying the length of the facade comb, it becomes possible to provide ventilation of the facade in inconvenient places, for example, in areas under balconies, between windows of the same floor and windows of different floors.

Consequently, the use of a support column makes it possible to construct a façade with high-texture cladding in full or in the form of separate architectural inserts.

Thus, the proposed utility model is an alternative to the existing support posts as part of the suspended systems of building facades for installing facing lamellas on the side.

Claims (2)

1. A support post for the suspension system of a building facade for installing lamellas, including a flat cross-section fastening bar with brackets designed for fastening lamellas in a kneeling position, characterized in that the brackets are made of sheet metal and are angle profiles, each bracket is installed on a fastening strip so that the first shelf and the fastening strip are connected with an overlap, while the first shelf has the shape of a rectangular trapezoid, the second shelf, intended for fastening the lamellas, has the shape of a rectangle, and the edge of the bracket runs along the common side with the inclined side of the trapezoid, and when organizing the connection with an overlap the edge of the first flange of each bracket, spaced from its edge, is located along the longitudinal edges of the fastening strip. 2. The stand according to claim 1, characterized in that the angle of the first shelf adjacent to the 90° angle at the base of the trapezoid is 84°.