RU145040U1 - CORNER FACADE FACING MODULE - Google Patents

Abstract

An angled facade cladding module, which is a three-dimensional structure in the form of two plates interconnected at an angle with a decorative relief pattern on the front side or with a flat front surface, and made on the upper and lower horizontally positioned end walls with supporting surfaces for docking with the lower or upper disposable angular facade module, characterized in that at least part of the length of the upper end wall is made in the form of a protrusion triangular in cross section less than the thickness of the plates, and the lower end wall is made with a groove that is reciprocal in shape of the protrusion, to accommodate the protrusion of the upper disposable corner facade module and fix the latter due to the stop of the protrusion in the inclined wall of the groove and its angular zone, on the back of the plates from the side fastening elements in the form of tin strips protruding outward beyond the edges of the plates and intended for fastening the corner facade module to the supporting surface are fixed to the upper end wall.

Description

The utility model relates to building materials and relates to the design of decorative cladding panels that mimic the texture of natural and artificial stones. In particular, the design of the angular facade cladding module used to design the corner zones of the abutting walls of the building and concealment of the end sections of flat facade modules is considered.

For facing flat sections of the walls of the building, flat facade cladding modules are used, containing decorative facing tiles made of each rectangular shape with a relief on the front surface imitating the texture of natural or artificial stone, or with a flat front surface,

Such modules are known, for example, from RU 99508, E04F 13/00, publ. 20.112012 or RU 136465, E04C 1/00, E04F 13/00, publ. 01/10/2014. These modules are fixed on the walls of the building with an offset in a row with respect to the modules in the lower or upper rows, which does not allow the formation of a pronounced angle in the corner zones of the walls of the building. For this purpose, angular facade cladding modules are used, which allow you to hide the ends of the flat modules.

For example, the angular facing facade module is known, protected by a patent for an industrial design RU 44472, 25-01, publ. 06/16/1998. This corner module is made in the form of a corner element of a L-shaped cross-section with flat walls in each shoulder and the front surface of which is decorated in the form of a decorative relief of three rows of brickwork. In this case, for an oriented docking with an adjacent facing element, there is a protrusion and a nest corresponding to it. This decision was made as a prototype for the claimed object.

Such an angular module is a complete building element. When designing the corner zone of the building, the lower block is placed, and the subsequent blocks are laid one on top of the other. At the time of installation, the orientation of the modules is carried out by entering the protrusions in the mating slots. It should be borne in mind that in the known solution, the protrusions are understood as the protruding part of the base of the module, which is introduced under the protruding part of the decorative layer. This is done in order to hide the joints and preserve the texture of the brick at the junction.

But such an interaction of the corner modules with each other does not solve the problem of clearly positioning the modules in the laid out vertical row, since each corner block needs to be fixed to the wall and each block must be positioned separately. This creates difficulties during installation and requires quite high skills among installers.

This utility model is aimed at achieving a technical result, which consists in improving operational properties due to the formation of positioning elements of the modules when they are mounted on top of each other in a vertical row.

The specified technical result is achieved by the fact that in the corner facade cladding module, which is a three-dimensional structure in the form of two plates interconnected at an angle with a decorative relief pattern on the front side or with a flat front surface, and made on the upper and lower horizontally placed end walls with supporting surfaces for docking with the lower or upper angular facade module placed, at least for part of the length, the upper end wall is made in the form of triangles in the cross section of the protrusion with a thickness less than the thickness of the plates, and the lower end wall is made with a groove that is reciprocal in shape to accommodate the protrusion of the upper angular facade module and fix the latter due to the stop of the protrusion in the inclined wall of the groove and its corner zone on the back to the side of the plates from the side of the upper end wall, fastening elements are fixed in the form of tin strips protruding outward beyond the edges of the plates and intended for fastening the corner facade module on a supporting surface.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a concrete example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result by the given set of features.

In FIG. 1 shows an angular facade decorative facing module, in a perspective view;

FIG. 2 - a vertical section of the junction of two corner modules is presented.

In the framework of this utility model, the design of an angular facade cladding module 1 is considered, which is used to form a decorative cladding panel composed of a set of similar modules on the corner of the walls of the building. A feature of such modules is that when connected, they form hidden joint seams, isolated from the direct impact of an aggressive external environment. In addition, the design of the modules provides, when connected to the panel, the formation of a common external decorative surface, the flatness of which does not depend on the flatness of the wall as a supporting surface, and does not require prior alignment of the wall. At the same time, such an angular module closes the ends of the flat facing modules, with which the flat sections of the walls of the building are decorated.

The utility model is based on the task of combining the facing modules into a single monolith protecting the joint seams from the external environment, which increases the durability of both the individual facing module and the corner facing layer as a whole, formed from the claimed modules.

In the framework of this utility model, the design of the angular facade cladding module 1 is considered, which can be made of natural material, for example, stone, or artificial material, for example, of artificial stone. Such a module can be made from a combination of polymeric and natural materials, etc. Modules can be made of colored modified concrete and imitates various types of brick and masonry or just a stone surface.

In the general case, such a module can be made in the form of a monolithic part containing a front surface made in the form of a decorative layer made with a relief on the front surface imitating the texture of natural or artificial stone. The module can be made in the form of a monoblock single part with a flat front surface.

The module can be made composite of two layers: the base, forming the back side, and with a layer placed on the base or made with it at the same time, forming the front surface of the plate. The decorative finish of the front surface of the top layer of the module plate can also be different (for brick, stone, laminated stone (slate), wood, boulder, various rock types, etc.). This top layer may be made of a material other than the base material.

The angled facade cladding module 1 (Figs. 1 and 2) is a three-dimensional structure in the form of two plates 2 connected to each other at an angle with a decorative relief pattern on the front side or with a flat front surface. This module has a calculated thickness, which is determined from the strength conditions of the module, and is made on the upper and lower horizontally positioned end walls with supporting surfaces for joining with the lower or upper angular front facade module during installation. A feature of the inventive angular module is that at least part of the length, the upper end wall is made in the form of a protrusion 3 triangular in cross section with a thickness less than the thickness of the plates, and the lower end wall is made with a groove 4 corresponding in shape to the protrusion for placing the upper protrusion located therein angular facade module and fixing the latter due to the abutment of the protrusion in the inclined wall of the groove and its corner zone 5, as shown in FIG. 2. On the back side of the plates from the side of the upper end wall, fastening elements are fixed in the form of tin strips 6, protruding outward beyond the edges of the plates and intended for mounting the plates on a supporting surface.

When installing the first corner module, located at the very bottom of the corner of the wall, this unit is fixed on the wall.

In the vertical direction, the modules must be fastened to the supporting surface. For this purpose, it is provided to fasten the module using plate strips 6 (galvanized, plastic, metal, preferably these plates are tin), mounted on the back of the plates, some ends of which are embedded in the plate on the back, and the other bent in the plane of the back , brought out beyond the circuit of the module. The strips can be made continuous without holes and perforations, but can carry pre-prepared holes for fasteners (bolts, screws, nails, anchors, etc.). This allows you to mount the plates directly on the mounting surface on the mounted supporting surface - the wall without involving rails and guides.

The next module is stacked on top of the first so that the protrusion of a triangular shape on the first module falls into the groove on top of the stacked module. Since the protrusion has a triangular shape, and the groove is made along the profile with a reciprocal protrusion, then sliding along the inclined walls of the protrusion and groove occurs, and the protrusion abuts against the angular zone of the groove, being fixed in the wedge contact, each angular module has sufficient weight so that such a contact is reliable due to loading by own weight. At the same time, two new qualities are achieved. First, the wedge jamming of the module refers to reliable connections, the disclosure of which is possible only if a reverse force is applied to the module, which is impossible, since all the modules are on top of each other and weight reinforce the jamming. Since, in addition to the uppermost module, all other modules are pinched under two end walls (upper and lower), there is no need for additional fastening from the bottom of each module to the wall of the building. This allows you to simplify the installation of corner blocks and increase productivity. The second - since the landing in jamming occurs on the inclined surfaces of the protrusion and groove, conditions are created for positioning each subsequent module relative to the previous one and relative to the wall in the absence of the need for the use of control and installation tools. Such qualities distinguish the angular facade module in relation to the prototype and similar angular blocks on the market.

Traditionally, in such a building block, the plates are located at right angles, which corresponds to the tendency of the formation of angles during the erection of the walls of the building. But the plates can be located at angles other than direct for cases of individual construction of a building or cottage.

This utility model is industrially applicable, as it can be manufactured using well-known technologies used in the manufacture of tiles for general purposes.

Claims (1)

An angled facade cladding module, which is a three-dimensional structure in the form of two plates interconnected at an angle with a decorative relief pattern on the front side or with a flat front surface, and made on the upper and lower horizontally positioned end walls with supporting surfaces for docking with the lower or upper disposable angular facade module, characterized in that at least part of the length of the upper end wall is made in the form of a protrusion triangular in cross section less than the thickness of the plates, and the lower end wall is made with a groove that is reciprocal in shape of the protrusion, to accommodate the protrusion of the upper disposable corner facade module and fix the latter due to the stop of the protrusion in the inclined wall of the groove and its angular zone, on the back of the plates from the side fastening elements in the form of tin strips protruding outward beyond the edges of the plates and intended for fastening the corner facade module to the supporting surface are fixed to the upper end wall.