RU2180935C2 - Tool for fastening facing plates - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: tool has at least two bearing sections each brought in engagement with two opposite surfaces of facing plates by means of ribs to form mortise joint; it also has supporting section joined on surface being faced, and intermediate member engageable with bearing and supporting sections. Bearing section is fastened to intermediate member enclosed by supporting section so that adjustable gap is formed between intermediate member and supporting section in direction perpendicular to surface being faced; supported section is provided with means for eliminating longitudinal and transversal displacement of intermediate member during its installation. Supporting section and intermediate member have U-shaped member in section of horizontal plane; ledge of U-shaped member faces surface being treated; U-shaped section of intermediate member on open side has supporting ledges stepping aside from cheeks in opposite direction; supporting ledges are used for installing bearing members. EFFECT: facilitated manufacture; reduced assembling time; reduced cost due to using less expensive materials. 5 cl, 4 dwg

Description

 The present invention relates to a building structure, and more particularly to a device for attaching facing plates.

 Most successfully, the present invention can be used for cladding building facades with natural stone.

 Equally successfully, the present invention can be used for cladding building facades with artificial materials, such as ceramic granite.

 In connection with the observed growth trend in the volume of urban planning, it became necessary to shorten the commissioning of building structures, which led to the appearance of structures with the so-called “ventilated” facade, which is understood to mean a decrease in the thickness of the outer walls when using a layer of insulation between the wall and facing plates to form air gap between the latter and the insulation layer.

 Until now, the elements of the device for attaching the facing plates were made of expensive stainless steel, which led to the high cost of the building structure, and were also folded during installation, since individual fastenings of each facing tile were required.

 Attempts to simplify the installation of cladding plates on the walls led to the emergence of a device for fastening plates, known from German patent application DE 40 23 523 A1 (class E 04 B 2/96 02/14/91). The technical solution known from the publication is the closest to the claimed invention in terms of the combination of essential features and the achieved result. The known device contains at least two load-bearing profiles, each of which by means of transverse ribs engages with two opposite surfaces of the facing plates, forming a spike-groove connection, and a support profile fixed to the surface to be faced. In addition, the device comprises an intermediate element connected to the supporting profile and rigidly connected to the supporting element. The supporting profile is covered by the shelves of the intermediate profile and connected to the latter by means of bolts. Such a structural embodiment of the above device requires leveling the surface exposed to the cladding, increases the installation time of the plates.

 However, the known device is characterized by low performance. In addition, when using the above device, it is not possible to place a layer of insulation between the wall and facing plates due to the limited gap between them.

 The basis of the invention is the task of developing a device for attaching cladding plates, in which by introducing new connections of the intermediate element with the elements of the device would simplify the installation of cladding plates and reduce installation time, as well as reducing the cost of the device due to the manufacture of its structural elements from cheaper material .

 The problem is solved in that in the device for attaching the facing plates containing at least two load-bearing profiles, each of which, by means of ribs, engages with two opposite surfaces of the facing plates, forming a spike-groove connection, a support profile fixed to the surface to be lined and the intermediate element associated with the supporting profile and with the supporting profile, according to the invention, the supporting profile has two supporting shelves facing in opposite directions, lying in one a vertical plane and mounted on an intermediate element, which is covered by a support profile so that in the direction perpendicular to the surface facing, an adjustable gap is formed between the intermediate element and the support profile, equipped with means to prevent longitudinal and transverse movement of the intermediate element when it is installed, each - both the support profile and the intermediate element in the section by a horizontal plane have a U-shaped profile, the shelf of which is facing the surface, ergonomic cladding, while the U-shaped cross-section of the intermediate element from the open side has support flanges extending from the sides in the opposite direction, designed to install the supporting elements.

 Such a constructive implementation of the device leads to a simplification of its installation and a reduction in the time of facing work.

 The fastening of the intermediate element in the supporting profile with the formation of an adjustable gap between them leads to the location of the bent shelves of all intermediate elements in one plane, to which the bearing profiles are subsequently attached. In this way, the unevenness of the surface to be coated is compensated. In addition, the presence of an adjustable gap allows you to place a layer of insulation of different thicknesses, for example, from about 50 mm to about 150 mm.

 Placing all the bent shelves in one plane, in addition, allows you to accelerate the surface cladding operation, since the installation of cladding plates is carried out immediately over the entire surface area. In addition, the above device consists of unified structural elements.

 The execution of both the support profile and the intermediate element in such a way that they have a U-shaped profile in the horizontal section, increases the accuracy of regulating the gap between the shelves of the support profile and the intermediate element, which in turn accelerates the surface cladding by placing bent shelves in one plane.

 Preferably, the supporting profile, the supporting profile and the intermediate element are made of structural aluminum alloy.

 The use of aluminum alloy in the device for attaching the facing plates reduces its cost.

 In addition, it is no less preferable that the means on the supporting profile to prevent longitudinal and transverse movement of the intermediate element when installing the latter was a truncated cylindrical surface facing the intermediate element and interacting with the latter.

 This embodiment of the tool leads to a significant simplification of the installation process of the device as a whole by eliminating operations such as the need for the worker to hold the intermediate element before attaching it to the support profile, which reduces the complexity of installing the device. Since the shelf size of each intermediate element is larger than the distance between the cylindrical surfaces of the support profile means, a springy effect occurs that prevents the intermediate element from moving in the longitudinal and transverse directions when mounting the device.

 Further, however, the implementation of the means according to the invention allows you to adjust the gap between the shelves of the support profile and the intermediate element by moving the side walls of the intermediate element in the transverse direction.

 It is advisable to make a groove on the outside of the support profile in the area of the cylindrical surface, in the wall of which there are through holes for fasteners, some of which are made in the form of an oval elongated in the longitudinal direction of the support profile.

 The implementation of through holes in the form of an oval allows you to take into account the deformation of the intermediate elements of the device, operated at different ambient temperatures.

 It is recommended that the supporting profile for installing intermediate cladding plates has two transverse ribs lying in one vertical plane, and the supporting profile for the last of the cladding plates has one rib located in the horizontal plane and the other edge in the vertical plane.

 This embodiment of the supporting profile for the last of the facing plates creates versatility in its application, for example for facing window and door slopes, as well as for facing transition zones formed by adjacent facing surfaces lying in different planes.

Other objectives and advantages of the invention will become more apparent from the following specific example of its implementation and the drawings, in which:
Figure 1 depicts a perspective view of a device according to the invention;
Figure 2 is a view along arrow A in figure 1 on an enlarged scale;
Figure 3 is a view along arrow B in figure 1 on an enlarged scale;
Figure 4 is a view on arrow A 'in figure 1 on an enlarged scale.

 The device for attaching the tiles according to the invention comprises at least two supporting profiles 1 (FIG. 1), at least two supporting profiles 2 and an intermediate element 3. Each supporting profile 1 by means of transverse ribs 4 and 5 (FIG. 2) ) engages with two opposite surfaces of the facing plates 6, forming a spike-groove connection. Each supporting profile 2 is fixed on the surface 7 exposed to the cladding, by means of an anchor bolt 8 and a nut 9 and has a U-shaped cross-section in the horizontal plane, and its shelf 10 faces the surface subjected to the cladding. In addition, the support profile 2 is provided with a means 13 that prevents longitudinal and transverse movement of the intermediate element 3 when installing the latter.

 The specified tool 13 is made in the periphery of the side walls 11, 11a of the support profile 2 and is a segment of a cylindrical surface 14 facing the intermediate element 3 and interacting with the walls 11, 11a of the latter.

 The intermediate element 3 in the horizontal plane is also a U-shaped section having a shelf 15 facing the facing surface 7 and the sides of the support flanges 16, 16a facing opposite from each other, located on the open side of the intermediate profile 3 and lying in one vertical plane, both with each other and with the sides of the support flanges of adjacent intermediate elements 3. The intermediate element 3 is covered by the support profiles 2 so that in the direction perpendicular to the facing rd surface 7, formed by an adjustable gap 17 between the flanges 10 and 15. By adjusting the gap 17, it becomes possible to arrange the support shelf 16, 16a adjacent intermediate element 3 in one and the same vertical plane, which eliminates the influence of the irregularities on the surface 7 facing quality. Moreover, the size of the shelf 15 of the intermediate element 3 in the horizontal plane is larger than the distance between the cylindrical surfaces 14 of the support profile 2, as a result of which there is a springy effect that prevents the mobility of the intermediate element 3 before installing the fasteners.

 On each outer side 11, 11a of the support profile 2, a groove 18 is made in the area of the cylindrical surface 14, in the wall of which there are through holes 19 (FIG. 2) for fasteners, for example, bolts 20 with nut 21. Some of these holes 19 are made in the form oval elongated in the longitudinal direction of the support profile 2, which allows you to take into account the deformation of the intermediate elements 3 of the device due to the operation of the latter at different ambient temperatures.

 Each bearing profile 1 is fixed to one of the supporting shelves 16, 16a of the intermediate element 3 by means of bolts 22 and nuts 23. To compensate for the temperature expansion between the two bearing profiles 1, a gap 24 is provided (Fig. 3) facing the cavity 25 bounded by the side walls 26 , 26a and shelf 15 of the intermediate element 3.

 The supporting profile 1 has supporting flanges 27, 27a (FIG. 2), facing in opposite directions, lying in the same vertical plane and designed to connect with the supporting flanges 16, 16a of the intermediate element 3.

 When laying the facing plates of the last row, the bearing profile 1a (Fig. 4) is structurally different from the above-described bearing profile 1 (Figs. 1-3), namely, one rib 28 is located in the horizontal plane, and the other rib 29 is in the vertical plane and, in addition to moreover, it has only one support shelf 30, which is mounted on the support shelves 16, 16a of the intermediate element 3 and fastened to the latter by means of bolts 31 and nuts 32. A facing plate 6 of the last row is installed on a vertically located rib 29, and a horizontal rib 28 is installed pouring, if necessary, the facing plate 6a in a plane perpendicular to the facing wall.

 All structural elements that make up the device for fastening the facing plates 6, 6a are made of structural anodized aluminum alloy.

 The installation of the device for fixing the facing plates is as follows.

 On the surface of the wall exposed to the cladding, anchor profiles 2 are mounted by means of anchor bolts 8 and nuts 9, located at a predetermined distance from each other vertically and horizontally. After that, at least two supporting profiles 2 vertically insert an intermediate element 3 of limited length, due to the need for gaps to compensate for its thermal expansion and extending into the cavity of one of the supporting profiles bounded by side walls 11, 11a and shelf 10. Intermediate element 3 they are inserted with a slight effort into the supporting profile 2 due to the spring action between its side walls 26, 26a and the cylindrical surface 14. Regardless of the relief of the wall being faced, the supporting shelves 16, 16a of all intermediate elements 3 are installed in one vertical plane by adjusting the gap 17. After that, the intermediate element 3 and the supporting profile 2 are connected by fasteners - bolts 20 and nuts 21. Subsequently, the supporting profiles 1 are mounted by the support shelves 27, 27a on the support shelves 16, 16a intermediate elements 3 and are fixed by means of fasteners - bolts 22 and nuts 23. And finally, the facing plates 6 are engaged in the form of a tenon groove with vertical ribs 4 and 5 of the bearing profile 1. When mounting the last row of the facing ny plates 6 are engaged with the rib 29, and facing plates 6a, which are installed, if necessary, in a perpendicular plane, are engaged with the rib 28 of the bearing profile 1a.

 Thanks to the device according to the invention, wall cladding can be carried out both from the bottom up and from top to bottom.

 Thanks to the above-described device, the productivity of facing work per worker is significantly increased and reaches about 3 meters of square facing per shift.

 The device according to the invention can be used not only for wall facing with natural stone, but also with any other facing material suitable for the above technology.

Claims (5)

 1. A device for attaching cladding plates, containing at least two bearing profiles, each of which, by means of ribs, engages with two opposing surfaces of the cladding plates, forming a spike-groove connection, a support profile fixed to the surface to be coated, and an intermediate element associated with the supporting profile and the supporting profile, characterized in that the supporting profile has two supporting shelves facing in opposite directions, lying in the same vertical plane and fixed and an intermediate element, which is covered by the supporting profile so that in the direction perpendicular to the surface facing, an adjustable gap is formed between the intermediate element and the supporting profile, equipped with means to prevent longitudinal and transverse movement of the intermediate element when it is installed, each and the supporting profile, and the intermediate element in cross section with a horizontal plane has a U-shaped profile, the shelf of which is facing the surface exposed to the lining, while the U-shaped with The cross section of the intermediate element on the open side has support flanges extending from the lateral sides in the opposite direction, intended for the installation of bearing elements.  2. The device according to p. 1, characterized in that the supporting profile, the supporting profile and the intermediate element are made of structural aluminum alloy.  3. The device according to claim 1 or 2, characterized in that the means on the supporting profile for preventing longitudinal and transverse movement of the intermediate element when installing the latter is a truncated cylindrical surface facing the intermediate element and interacting with the latter.  4. The device according to any one of paragraphs. 1-3, characterized in that on the outer side of the support profile in the area of the cylindrical surface there is a groove in the wall of which there are through holes for fasteners, some of which are made in the form of an oval elongated in the longitudinal direction of the support profile.  5. The device according to any one of paragraphs. 1-4, characterized in that the supporting profile for installing the facing plates of the last row has one rib located in the horizontal plane, and the other rib in the vertical plane.

Images