RU133218U1 - DEVICE FOR FASTENING CERAMIC PLATES ON THE FACES OF BUILDINGS - Google Patents

Abstract

The utility model relates to the field of industrial and civil construction, and in particular to structures for cladding ventilated facades (IAF) of buildings under construction and reconstructed. The essence of the utility model: A device for attaching ceramic plates to building facades includes horizontal supporting profiles, fasteners containing a mounting shelf, a fixing shelf, a presser foot, made integrally with the possibility of installation in grooves made on the back surface of the facing plates, with the formation of a node fastenings, while the horizontal bearing profiles are made in the cross section Z-shaped, the grooves on the back surface of the facing plates are made in the form of a "dovetail". The utility model allows to simplify the design of the device, reduce the complexity of installation work. 2 zp f-ly; 3 ill.

Description

The utility model relates to the field of industrial and civil construction, and in particular to structures for cladding ventilated facades (IAF) of buildings under construction and reconstructed.

The most effective real utility model can be used for cladding facades of buildings and other building structures with ceramic (terracotta) plates with hidden fastening.

The use of hinged cladding panels made of modern finishing materials can improve the appearance of building facades, as well as increase the heat-shielding performance of the building envelope and protect it from harmful atmospheric influences. For mounting hinged cladding plates use various systems and means of fastening, including a variety of fasteners.

A device for a hinged facade system according to DE patent No. 10333019, IPC E04F 13/08, publ. 03/10/2005. including vertical guides, horizontal guides and fasteners.

A disadvantage of the known system is the high metal content of the horizontal guides.

There is a method of performing finishing work on existing structures, consisting in the fact that from a strip of inelastic, moldable material with a thickness of 0.7-0.3 mm, halves of the elements for the manufacture of dovetail mounting grooves are made, they are attached to the surfaces of structures to be trimmed so that grooves are formed on them for fastening like “dovetail”, where the protrusions for fastening like “dovetail” of decorative, insulating, linoleum, parquet, carpet tiles are introduced, the last with subsequent repair and introduce new tiles. A device for implementing this method is known, comprising a rolling machine for manufacturing from strips of inelastic, formable material, 0.7-0.3 mm thick halves of elements for making dovetail grooves, and also contains decorative, insulation, linoleum, and parquet , carpet tiles with back protrusions for fastening like "dovetail" (RF patent No. 2453667, IPC E04F 13/00, publ. 20.06.2012).

The disadvantages of the known method and device are the complexity of the design of the device and the high complexity of the method.

The closest in technical essence to the claimed utility model, selected as a prototype, is a device for attaching Kera Twin ceramic tiles of the Deutsche Steinzeug GmbH concern, containing vertical and horizontal supporting profiles, fasteners made in the form of an adapter, including the adapter itself, a spring and a mounted clamp laid out in the album “Facade Systems 2007” (http://www.duma-studio.ru/tile/28_fassade_RU.pdf), p. 27, 31.

The prototype has the following disadvantages:

- design complexity;

- high complexity of installation.

The technical problem to which the utility model is directed is to improve the device for fixing ceramic plates on the facades of buildings.

The technical result consists in simplifying the design of the device for mounting ceramic plates on the facades of buildings, in reducing the complexity of installation work.

The technical result is achieved by the fact that in the device for mounting ceramic plates on the facades of buildings, including horizontal supporting profiles and fasteners, the fasteners contain a fastening shelf, a fixing shelf, a presser foot, while being made integrally with the possibility of installation in grooves made on the back surface of the cladding plates, with the formation of the mount, the horizontal supporting profiles are made in the section Z-shaped, the grooves made on the back surface of the claddings are shaped dovetail. "

Since the fasteners of the known device (prototype) are made of three separate parts: the adapter itself, the spring and the hinged clamp, the installation instruction for the hinged cladding plates using the known device provides for the preliminary installation of the adapter plate in the groove, and then fixing the springs and the clamp on it with using ticks. The design of fasteners made as a whole in accordance with the claimed utility model, unlike the prototype, does not require their preliminary assembly during installation, which significantly reduces the complexity of installation work, while this design of fasteners makes it easy to install and fix them in grooves, made on the back surface of the facing plates, providing reliable fixation of the facing plates to the horizontal shelf of the Z-shaped supporting profile. The design of the fasteners makes it easy to fix them through the fixing shelf to the horizontal supporting profile using self-tapping screws, ensuring reliable connection and blocking of the plate with the fasteners installed in its grooves from displacement. To prevent vertical displacement of the fasteners in the groove of the plate they are fixed with a sealant. The prototype hinged adapter clamp is mounted on a horizontal profile without fixing it, which does not exclude the possibility of vertical displacement of the plate with the adapter installed in its groove. The configuration of the fasteners corresponding to the shape of the grooves made on the back side of the cladding plates in the form of a "dovetail" makes it easy to install fasteners in them, made as a whole. The implementation of horizontal bearing profiles in the section Z-shaped allows you to fix to their horizontal shelf fasteners through the fixing shelf of the latter. In addition, the design of fasteners made in accordance with the claimed utility model allows them to be manufactured with different configuration of the presser feet, which makes it possible to mount plates of various thicknesses (15-18 mm) in one plane without changing the extension of brackets and vertical profiles relative to the wall of the building, which in turn allows you to expand the functionality of the device and get an additional positive effect.

The utility model is illustrated by drawings, where:

figure 1 - device for mounting ceramic plates on the facades of buildings, General view;

figure 2 - device for mounting ceramic plates on the facades of buildings, a vertical section;

figure 3 - fastener, made as a whole.

A device for mounting ceramic plates on building facades comprises horizontal Z-shaped supporting profiles 1, including an upper vertical shelf 2, a lower vertical shelf 3, a horizontal shelf 4, fasteners 5, including a mounting shelf 6, a fixing shelf 7, a presser foot 8, made as a whole, self-tapping screws 9.

The use of a device for mounting ceramic plates on the facades of buildings is as follows. Installation of plates is made from the bottom up. In the grooves 10, made in the form of a "dovetail" on the back surface of the plate 11, install the mounting shelf 6 of the mounting element 5, then the horizontal Z-shaped supporting profile 1 is installed on the wall of the building, fixed to it through the lower vertical shelf 3 of the horizontal Z-shaped support profile 1 with any kind of fasteners: rivets, self-tapping screws, front anchors, etc., then on the upper vertical shelf 2 of the horizontal Z-shaped support profile 1 put on the fixing shelf 7 of the fastener 5, fixing conductive shelf 7 of the fastening element 5 is further secured to the horizontal shelf 4 horizontal Z-shaped bracket profile 1 softwood 9. Vertical supporting profiles is not used to provide additional positive effect of the use of the utility model - reduction of metal bearing profiles. The use of a device for fixing ceramic plates on building facades in accordance with the claimed utility model is also possible with the use of vertical supporting profiles, in which case a horizontal Z-shaped supporting profile 1 is installed on a vertical profile (in FIG. 1 and FIG. 2 - item 12 ), fixed to it with rivets (not shown) through the lower vertical shelf 3 of the horizontal Z-shaped supporting profile 1 and then the installation is carried out as in the first embodiment.

Fasteners, including a fastening shelf, a fixing shelf, a presser foot, are made in production conditions as a single unit, for which a profile of a given section is made, then the profile is sawn and fasteners are obtained that do not need to be assembled from separate parts in advance installation, like a prototype. The manufacturing process of one integral part is also less time-consuming than the manufacture of a prefabricated part from three components. Fasteners are produced with various configuration of presser feet for mounting plates of various thicknesses.

The inventive device for fastening ceramic plates on the facades of buildings allows to simplify the design of the device, reduce the complexity of installation work with high reliability of fastening.

Claims (3)

1. A device for mounting ceramic plates on the facades of buildings, including horizontal supporting profiles and fasteners, characterized in that the fasteners contain a fastening shelf, a fixing shelf, a presser foot, and are made integrally with the possibility of installation in grooves made on the back surface of facing plates, with the formation of the mount. 2. The device for mounting ceramic plates on the facades of buildings according to claim 1, characterized in that the horizontal supporting profiles are made in the section Z-shaped. 3. The device for mounting ceramic plates on the facades of buildings according to claim 1, characterized in that the grooves made on the back surface of the facing plates are made in the form of a dovetail.

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