RU95710U1 - BUILDING MODULE WITH FACING TILES - Google Patents

Abstract

 1. The building module, consisting of a building block and the back of the facing plate connected to it, comprising an integral reinforcing element, part or parts of which extend beyond the plane of the back of the facing plate, characterized in that the building block has recesses in which are located protruding parts or a part of the reinforcing element, and between the back side of the facing plate and the side of the building block in contact with it, as well as between the surface of the protruding parts or and part of the reinforcing element, and the surface of the recess in the building block there is a gap filled with adhesive in the form of a cement mortar. ! 2. The building module according to claim 1, characterized in that the one-piece reinforcing element is made in the form of a spiral, bristle, hook or loop made of reinforcing steel and / or plastic wire. ! 3. The building module according to claim 2, characterized in that when connecting the facing plate and the building block made of foam concrete, there is no gap between the surface of the protruding parts or part of the reinforcing element and the surface of the recess in the building block.

Description

The utility model relates to the construction materials industry and construction, and can be used in the manufacture of arbolitic, expanded clay concrete, foam concrete and other building blocks with a decorative facing slab. And also for decorative cladding of facades of buildings and structures, decoration of external and internal surfaces of premises.

Known building modules, consisting of a building block and a facing plate, in which the facing plate is attached to the building block using various external mounting systems. For example, using various attachments according to the RF patent for IZO No. 2180935, clamps according to the RF patent for PM No. 45753, brackets for the RF patent for PM No. 14233. However, these devices for attaching the facing plate increase the complexity of the finishing work, require a significant investment of time and money. This does not provide sufficient reliability of fastening the facing plate to the building block.

A more reliable fastening is provided when using special shape cladding plates according to the patent of the Russian Federation for PM No. 14234, however, the fastening method itself is based on the use of the above-described hinged elements. Which also increases the complexity of finishing work and, in addition, increases the complexity of manufacturing such facing plates.

Close to the claimed utility model are technical solutions of building modules with cladding plates, in which embedded elements are installed in the form of a dowel according to the patents of the Russian Federation for PM No. 14048 and No. 27129. These facing plates are intended for external facing and thermal insulation of walls of buildings and structures. But the point fastening of the anchor element to the plate material does not provide sufficient mechanical strength and requires high accuracy of installation work when facing the walls, which significantly limits the scope of their application.

Closest to the claimed technical solution, a decision was made on the facing plate according to the patent of the Russian Federation for IZO No. 2209280, with dimensions that are multiple to the dimensions of the masonry element, consisting of protective and heat-insulating elements. The cladding plate further comprises anchor elements connected inseparably with the protective and / or heat-insulating elements in the process of manufacturing the cladding plate. At the same time, at least one of the extreme parts of the anchor element extends beyond the internal volume of the plate in its lateral part. And the protruding parts themselves during the masonry are installed in the corresponding seams between the masonry elements or building blocks and the adjacent rows of tiles in the process of erecting walls.

However, this invention solves only the narrow task of increasing the thermal protection of buildings under construction. A significant drawback is that the used cladding panels must have a certain size and a certain structural form for connection with a heat-protective layer. And this greatly complicates the manufacture of the facing plate and limits the scope of its use.

The task to which the present utility model is directed is the development of a simple and reliable device for attaching a decorative facing plate to a building block and any facing surfaces.

The technical result of the proposed solution is to increase the strength of the connection of the decorative plate and the building block due to the combination of the adhesive and reinforcing type of joints of these elements.

The solution to this problem is achieved by the fact that in the process of manufacturing a facing plate, a reinforcing element is installed (“implanted”) in its body (“body”), part or parts of which extend beyond the plane of the rear side of the facing plate. And in the building block, to which the facing plate will be fastened, immediately after its compaction, pouring, vibration pressing, etc. operations, technological holes are made corresponding to the shape and size of the protruding parts of the reinforcing elements, "implanted" into the facing plate. These holes are filled with a solution, for example, cement. When connecting the facing plate to the building block, the protruding parts of the reinforcement on the back side of the plate enter the technological holes of the building block, and the connection itself is sealed by lightly pressing the facing plate.

In the production of expanded clay concrete, foam concrete and similar building modules with a cladding plate having sufficiently rigid reinforcing elements, there is no need to make technological holes, and the cladding plate is inserted into the freshly prepared building block with protruding, pre-primed reinforcing elements.

When fixing the facing plate to the brick wall under construction, the reinforcing elements of the plate are immersed in the mortar joint between the bricks.

The facing plate can be made of any known materials and in any way. Plate thickness can be from 5 mm and above. As a reinforcing element, reinforcing steel can be used in the form of wire rod, wire, plate, tire, rod, dowel, depending on the thickness and material of the plate. Plastic reinforcing elements of various configurations can also be used. The shape and dimensions of the plate can be very diverse - for any plate size, you can choose the best type of reinforcing element, providing a strong and reliable connection to the surface to be coated.

Application of the proposed construction module construction with a facing slab will significantly expand the scope of facing slabs - from decorative finishing of the front surface of any building materials to finishing the external and internal surfaces of rooms. The use of a reinforcing element installed in the slab body in the construction greatly simplifies the manufacture of building modules with a decorative facing surface, while simultaneously increasing the joint strength and the reliability of fixing the facing slab to the building block. The proposed construction of the building module can be widely used in the construction and production of building materials.

The essence of the claimed utility model is illustrated by the drawing, where figure 1 is a General view.

The building module consists of a building block 1 with technological holes 2 and a decorative facing plate 3 with a reinforcing element “implanted” into its “body” 4. Between the facing plate 3, the building block 1, and also between the surface of the protruding parts of the reinforcing element 4 of the facing plate and the surface of the technological holes 2 of the building block has a layer of adhesive 5 in the form of a cement mortar.

The building module is made as follows. At least 5 mm thick at the stage of vibrocasting, vibropressing or pressing, a U-shaped reinforcing element 4 of reinforcing steel is inserted (“implanted”) into the body or body of the facing plate 3, the extreme parts of which extend beyond the plane of the back of the plate. And in the building block 1 immediately after its compaction, pouring, vibrocompression in an uncured (not seized) state with the help of a metal rod, technological holes 2 are made with a depth and diameter larger than the length and diameter of the protruding parts of the reinforcing element 4. Refill into the formed holes ( extruded) adhesive 5 in the form of a cement mortar. Then in advance. not less than a day, the made facing plate 3 is inserted by the protruding parts of the reinforcing element 4 into the technological holes 2 with adhesive 5, which is also applied to the surface of the building block in contact with the back side of the facing plate. The connection is sealed by lightly pressing the cover plate with your hand.

Claims (3)

1. The building module, consisting of a building block and the back of the facing plate connected to it, comprising an integral reinforcing element, part or parts of which extend beyond the plane of the back of the facing plate, characterized in that the building block has recesses in which are located protruding parts or part of the reinforcing element, and between the back side of the facing plate and the side of the building block in contact with it, as well as between the surface of the protruding parts or and part of the reinforcing element, and the surface of the recess in the building block there is a gap filled with adhesive in the form of a cement mortar. 2. The building module according to claim 1, characterized in that the integral reinforcing element is made in the form of a spiral, bristle, hook or loop made of reinforcing steel and / or plastic wire. 3. The building module according to claim 2, characterized in that when connecting the facing plate and the building block made of foam concrete, there is no gap between the surface of the protruding parts or part of the reinforcing element and the surface of the recess in the building block.