RU55824U1 - CONSOLE FOR FASTENING A SUB-FACING CONSTRUCTION OF A VENTED FACADE - Google Patents

Abstract

The utility model relates to the field of construction, in particular, to fastening systems for the protective and decorative cladding of the building’s facade on the wall from the load-bearing wall. The technical result, which the utility model aims to achieve, is to increase the rigidity and strength of the consoles, reduce internal stresses, reduce the deformation of the planes of the consoles before and after installation of the system, as well as to improve the quality and ease of installation. The console is made of aluminum alloy in the form of an L-shaped “corner” with an elastic terminal clip 1, contains a small shelf 2 and a long shelf 3. A hole is made in a small shelf 2. A terminal clip 1 and round holes 5 are made in a long shelf 3 of the support console .In the long shelf 3 of the wind console made terminal clamp 1 and oval holes 6.

Description

The utility model relates to the field of construction, in particular, to fastening systems for the protective and decorative cladding of the building’s facade on the wall from the load-bearing wall.

Several general directions of the design of such systems are known. They differ in the materials of manufacture, in the ways of fixing the elements together and in the structural and technical solution.

So, for example, a device for attaching a ventilated facade, adopted as a prototype, containing a shelf with a terminal clamp made in it by stamping (SU, No. 1205780, A3, 1986) is known.

The basis of the known technical solution is the cantilever execution of the supporting element of the ventilated facade system.

As the disadvantages of the prototype, it should be noted that the presence of a gap from the stamping of the terminal clamp on the supporting plane of the console reduces its rigidity and carrying capacity, resulting in

conditions for the relative displacement of the divided parts of the bearing planes of the console. In addition, it should be noted that the location of the terminal clamp on the side of the wall mounting shelf is irrational, which reduces the ease of installation of the system.

The technical result, which the utility model aims to achieve, is to increase the rigidity and strength of the consoles, reduce internal stresses, reduce the deformation of the planes of the consoles before and after installation of the system, as well as to improve the quality and ease of installation.

The specified technical result is achieved by the fact that the console for attaching the ventilated facade, containing the shelf with a terminal clamp made in it by stamping, is made in the form of an L-shaped “corner”, including respectively a long and a small shelf, the terminal clip is made in a long shelf with the formation of a jumper in the marginal area of the shelf length.

To improve the quality and ease of installation, the terminal clamp can be made in a long shelf from its outer side with respect to the small shelf.

The terminal clamp is stamped in the plane of the console without violating the edge region, i.e. with the formation of a jumper, thereby increasing the rigidity of the console. The distance from the edge of the stamped slot of the terminal clamp to the edge of the console is 5 mm, which allows you to maintain the integrity of the geometric shape of the long shelf of the console and to reduce its deformation. The direction of stamping is the opposite of the small shelf of the console.

The ability to achieve the specified technical result is justified by the results of a static calculation of two consoles, identical in material and different in geometric characteristics. The calculation was based on the solid-state console model.

This justification is illustrated by four figures with calculation tables (Fig. 1, Fig. 2, Fig. 3, Fig. 4). Figure 1 shows the proposed console with an elastic terminal clamp located in a long shelf at a distance from the outer edge and the results of calculating the static displacement. Figure 2 shows the console with a terminal clamp, cutting the edge of the long shelf of the console in two, as well as the results of calculating the static displacement. During the static calculation, it was found that with the same loading of both consoles with a force of 200 kN (100 kN for each hole located in the long shelf of the console), the console with the terminal clamp stamped in the long shelf of the console at a distance from the outer edge has less movement constituting 0.26 mm., due to greater rigidity. The console with a terminal clamp, cutting the long shelf in two, has a greater displacement of 0.30 mm, since the console with the cut has less rigidity. Figure 3 shows a console with a terminal clamp located in a long shelf at a distance from the edge and the results of calculating the static voltage. Figure 4 shows the console with a terminal clamp, cutting the edge of the long shelf of the console in two, as well as the results of calculating the static voltage. Static calculation showed that the console with the terminal clamp stamped in the long shelf of the console at a distance from the outer edge has a lower voltage σ ^max = 156.9 MPa at this load, while the console with a gap in the long shelf has a voltage equal to σ ^max = 164.2 MPa. Under equal loading conditions, the first console has a large margin of safety and, as a result, is able to absorb large loads from the action of the ventilated facade system.

The combination of such characteristics as the preserved geometric shape of the console, high-tech stamping of the terminal clamp and its

location in the shelf increases the rigidity of the console and as a result allows you to rationally perceive the current load on the system of the ventilated facade. The terminal clamp is stamped on the outside of the long shelf of the console, which in turn increases the convenience of mounting the console.

An important property of the system as a whole is the rational selection of the size step of the consoles and the height of the support shelf of the guide. The height of the console is 80-120-160-200 mm, and the height of the support shelf of the guide is 60 mm, which, given the necessary overlap of these elements, which is 20 mm, allows you to cover the entire interval of the variable relative. Consoles by type are conventionally divided into load-bearing and windshields, which, with the same geometric dimensions, differ in the shape of the holes. Round holes in the support console are necessary for rigid fastening of the guide, and oval holes to ensure the mobility of the guide in the vertical direction.

The need for guide rail mobility in the vertical direction is due to linear extensions of the guide material. Thus, the movable fastening of the guide to the wind console through oval holes, using sliding rivets, allows you to compensate for linear expansion caused by changes in air temperature.

The utility model is illustrated by drawings, in which Fig. 1 shows a support console when viewed from the side on a long shelf; figure 2 - supporting console when viewed from the front to a small shelf; figure 3 - carrier console when viewed from above; figure 4 - supporting console when viewed from the side on a long shelf; figure 5 - supporting console when viewed from the front to a small shelf; figure 6 - carrier console when viewed from above; 7 is a supporting console when viewed from the side on a long shelf; on Fig - the supporting console when viewed from the front to a small shelf; figure 9 - carrier console when viewed from above. 10

depicts a wind console when viewed from the side on a long shelf; figure 11 - wind console when viewed from the front to a small shelf; on Fig - wind console when viewed from above; on Fig - wind console when viewed from the side on a long shelf; on Fig - wind console when viewed from the front to a small shelf; on Fig - wind console when viewed from above; in Fig.16 is a General view of the mounting structure of the ventilated facade.

The console is made of aluminum alloy in the form of an L-shaped “corner” with an elastic terminal clip 1, contains a small shelf 2 and a long shelf 3. In a small shelf 2, a hole 4 is made (one or two holes depending on the size of the console). A terminal clamp 1 and round holes 5 (two, six or eight holes depending on the size of the console) are made in the long shelf 3 of the support console. A terminal clamp 1 and oval holes 6 (two or four holes depending on the size of the console) are made in the long shelf 3 of the wind console.

The console is designed to fix fachwerk and decorative-protective cladding relative to the wall of the building, and works as follows.

The supporting console 7 and the wind console 8 are fixed on the surface of the wall 9 of the building with anchor dowels 10, which are inserted through the holes 4 located in the small shelf 2 of the console. The hole 4 has an oval shape and thereby allows, if necessary, to shift the console 7, 8 in the horizontal direction to align the axial position of a number of consoles in the system. In the case stipulated by the project, a thermal pad 11 is installed between the wall of the building 9 and the consoles 7, 8. An elastic terminal clamp 1 is located on the outside of the shelf 3 of the consoles 7, 8, into which the bearing L- and T-shaped profiles 12 are inserted.

Due to the fact that the elastic terminal clip 1 is stamped without violating the edge region of the long shelf 3 of the console, the corresponding edge region remains closed and the rigidity of this region is maintained.

The external location of the elastic terminal clamp 1 in the shelf 3 allows you to freely start and secure the anchor dowel 10 in the hole 4, and thereby simplifies the installation of consoles 7, 8.

The elastic terminal clip 1 has the function of a spring clip and allows you to freely set the L- and T-profile 12 in the design position until it is finally fixed. Due to the length of the elastic terminal clamp 1 in 60 mm. it is possible to vary the joint (within 40 mm.) to install the L-and T-shaped profile 12 in the design vertical position. The L and T-shaped profile 12 is finally fixed using self-tapping screws 13 inserted through openings 5 and 6 of the consoles 7 and 8 located in the long shelf 3, respectively. Round holes 5 are designed for fixed fastening of L- and T-shaped profiles 12 in the system, and oval holes 6 provide movement of L- and T-shaped profiles 12 in the vertical direction. The standard size, the step of arranging the consoles on the wall surface is carried out in strict accordance with the project.

Claims (2)

1. A console for attaching a ventilated facade, containing a shelf with a terminal clamp made in it by stamping, characterized in that it is made in the form of an L-shaped “corner”, including a long and a small shelf, respectively, the terminal clip is made in a long shelf with the formation of a jumper in marginal area of a long shelf. 2. The console according to claim 1, characterized in that the terminal clip is made in a long shelf from its outer side with respect to the small shelf.