RU2133193C1 - Method for producing components of building structure and ceramic facing tile used in method - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: method and tile relate to production of formed construction articles. According to method, produced are both load-bearing and facing and decorative panels with flat and curvilinear external surfaces faced with ceramic tiles. All tiles needed in facing are placed with their face surfaces lying on lining so as to ensure contact between side surfaces of adjacent tiles. Surface of lining intended for placing tiles upon it has configuration of face surface of base of building structure component. Frontal surface of ceramic facing tile conjugates with its side surfaces through concave cylindrical surfaces located over width, and due to that at contact of tiles they create grooves well visible from large distances. In result, produced is relief external surface of construction component prominently imitating brick masonry. Application of aforesaid method allows for production of high-quality and cheap construction component with high grade of external surface. EFFECT: higher efficiency. 8 cl, 3 dwg

Description

 The invention relates to building materials, namely to molded building products, and relates to a method of manufacturing an element of a building structure and ceramic tiles.

 The method is used for the manufacture of predominantly structural elements with flat and curved outer surfaces of panels, as well as shaped elements of building structures, for example balconies used in civil and industrial construction. It can also be successfully used for the manufacture of elements of building structures used to decorate the interior of such buildings and structures.

 Ceramic tiles are used mainly for finishing elements of building structures with an external surface imitating brickwork.

 To decorate the external surfaces of building structures, tiles of various shapes and made of various materials, such as ceramic tiles, as well as facing bricks are widely used. Finishing the exterior surfaces of building structures with tiles is quite an expensive, lengthy and time-consuming process. The most common in the construction of multi-storey buildings is a method of manufacturing structural elements with a tiled outer surface, in which the facing tiles are placed on the front surface of the base of the building structure element in a predetermined order. The order of the tiles is mainly determined by the shape of the tiles. The shape of the tiles can be very diverse: square, rectangular, hexagonal. For used ceramic tiles, the front surface of each tile is usually conjugated with its side surfaces by convex cylindrical surfaces having a small radius, such that when the tiles are laid tightly, the clad surface looks solid at a short distance, which affects the appearance of buildings and structures. In order to make the lined surface look embossed, adjacent tiles are positioned relative to each other with gaps. The size of the gaps can be from 2 to 20 mm. Tiles are connected to the building structure using a binder. The gaps are sometimes filled with a binder material, contrasting in color of the tiles. The presence of gaps between adjacent bricks filled with a binder is due to the brick masonry process.

 An important requirement for the appearance of the external surfaces of building structures lined with tiles is the quality of the laying of tiles, which is determined by the equal size of the gaps between the tiles. One of the most common and well-known methods of manufacturing building structure elements with facing tiles located on its outer surface, by rigidly connecting the back surface of the tiles to the front surface of the base of the building structure element using a binder, is as follows. All tiles necessary for facing are laid with the front surfaces on the substrate, placing them in the specified order, with gaps between adjacent tiles, a layer of binder material is applied to the back surface of all tiles, and conditions are created for the binder to solidify.

 In order to withstand gaps of the same size between tiles, in the technological process of manufacturing structural building elements, special forms are used as a substrate for laying tiles, on the surfaces of which are intended for laying tiles, there are various auxiliary devices, such as rustics and partitions, thickness which sets the size of the gaps between the tiles. Rusts and partitions are usually rigidly connected to the substrate by welding or mechanical joining and form cells for each tile in accordance with its size. At the same time, the operation of laying each of the tiles in its cell is the longest and most laborious.

 To prevent leakage of binder material on the front surface of the building structure and on the bottom of the mold, before laying the tiles in the cells, a special fabric is laid on the surface of the mold to seal the gaps between the tiles. After that, the facing tile is laid on the fabric. The use of such a fabric increases the cost of an element of a building structure. In addition, the cost price is also increased due to the use of expensive forms as a substrate, whose service life is low due to the presence of relatively thin partitions, which quickly wear out when laying tiles. When switching to another tile size, such forms require rework.

 The closest analogue to the considered method is a method of manufacturing products, mainly wall panels, by successively laying layers of facing material (tiles) and adhesive material (SU 655546, B 28 B 11/00, 04/09/74).

 The closest analogue to the considered ceramic facing tile is a ceramic facing tile having a rectangular shape, the front surface of which is paired with its side surfaces (Building Ceramics. Reference. / Ed. By Rohvarger E.L., Stroyizdat, 1976, p. 115, 116, )

 The basis of the invention is the task to develop a method of manufacturing an element of a building structure with tiles located on its outer surface, which would reduce the cost of manufactured elements of building structures.

 The basis of the invention is also the task to create a ceramic tile of rectangular shape, which, when contacting the side surfaces of the tiles, would provide a relief external surface, similar to traditional brickwork, which would be easily distinguishable over long distances both on low-rise and multi-storey residential and industrial buildings and structures.

 The task in part of the method is solved by the fact that in the method of manufacturing a building structure element with ceramic tiles located on its outer surface, by rigidly connecting the back surface of the tiles with the front surface of the base of the building structure element using a bonding material, in which all the tiles needed for cladding, they are laid with face surfaces on the substrate, placing them in the specified order, bonding material is applied to the back surface of all tiles create conditions for the hardening of the binder material, according to the invention, use a ceramic facing tile, the front surface of which is mated with its lateral surfaces located along the width of the tile with concave cylindrical surfaces, and use a substrate, the surface of which is intended for laying tiles made smooth with the configuration required to obtain the desired configuration of the element of negative design, when laying tiles provide contact of the side surfaces of adjacent rings to give a relief of the outer surface simulating a brick wall.

 It is advisable to form a predetermined shape of the base of the building structure when applying a layer of binder material on the back surface of the tiles, which is obtained by hardening of the binder material.

 It is reasonable to form the basis of an element of a building structure in the form of a layer of the same thickness, which is selected from the condition of obtaining a given thickness of the base after hardening of the binder material.

 In the manufacture of the building structure element, you can first make the basis of the building structure element, which then lay on a layer of binder material, the thickness of which is selected from the conditions for obtaining a strong connection of the basis of the building structure element with tiles.

 To prevent the flow of binder material onto the front surface of the tiles, the joints at the contact lines of the tiles can be sealed or sealed.

 As a binder material, concrete or a high molecular weight polymer molding or binder material or mortar with organic and / or inorganic binders can be used.

 To increase the bond strength of the tiles, the grooves formed by the contact of the side surfaces are filled with a binder.

 The considered method of manufacturing an element of a building structure is less labor-intensive compared to the known one due to the reduction in the duration of laying the tiles on the substrate in the specified order, since the order of the tiles in which adjacent tiles are in contact with each other depends only on their shape. It allows you to significantly reduce the cost of an element of a building structure through the use of a cheap universal substrate with a smooth surface, designed for laying tiles. In this method, with dense, essentially without gaps, laying of tiles, it is not necessary to use a special fabric to prevent leakage of adhesive material between the tiles. In addition, the method does not require expensive forms for laying tiles, which reduces the cost of structural elements. The cost of the elements is also reduced due to the fact that the service life of the substrate, which does not have partitions or rusts, is significantly longer than the service life of a special form. The substrate used in the proposed method is universal, suitable for all used sizes of tiles.

 In the part of a ceramic facing tile having a rectangular shape, the front surface of which is paired with its side surfaces by cylindrical surfaces, the problem is solved by the fact that the front surface of the tile is paired with its side surfaces located along the width of the tile, concave cylindrical surfaces, the length of which over the thickness of the tile is from one third to two third of the thickness of the tile.

 In addition, it is possible to perform a ceramic facing tile having a rectangular shape in which the front surface of the tile is mated with its side surfaces spanning the width of the tile, flat surfaces, the length of which over the thickness of the tile is from one third to two thirds of the thickness of the tile.

 When decorating the exterior surfaces of any building structures with the facing tiles, a relief surface is obtained, since adjacent tiles form grooves along the contact lines that are distinguishable over long distances. When the rectangular tiles are arranged in the order of brickwork, a relief surface is obtained that imitates the brickwork well, distinguishable both on low-rise and high-rise buildings.

 Thus, the method of manufacturing structural elements of the proposed tiles is much cheaper than known and allows you to get an inexpensive and high-quality element of the building structure that does not require finishing the outer surface of the building structure.

The invention is further explained in the description of specific options for its implementation and the accompanying drawings, in which:
FIG. 1 shows a partially supporting building panel with a substrate at the last stage of the considered method of its manufacture, in the process of hardening a layer of a binder material (dimetry), according to the invention;
FIG. 2 is a part of the building panel of FIG. 1, on an enlarged scale, with a given ceramic tile, showing the relative position of the tiles (dimetry) according to the invention;
FIG. 3 is a part of a finishing building panel with a convex outer surface made by this method, the base of which is formed by applying a binder material on the back surface of the tiles (dimetry), according to the invention.

 A method of manufacturing an element of a building structure with facing tiles located on its outer surface is as follows. In the manufacture of a flat supporting building panel 1 (Fig. 1) containing a base 2 and a layer 3 of ceramic tiles 4, a substrate 5 is used to lay the tiles in the required order, which is selected for the outer surface of the building structure. The surface B of the substrate 5, intended for laying tiles 4, has the configuration necessary to obtain the desired configuration of the outer surface of the panel 1, it is flat as the front surface L of the base 2. In the described example, the base 2 has a flat front surface L, however, depending from the appointment of the building structure element, its front surface may have any other configuration. For example, the front surface of a balcony floor may have a convex cylindrical shape. The surface B of the substrate 5 is smooth, without partitions. The overall dimensions of the panel 1 are selected in accordance with the standard sizes of the supporting panels currently used in construction. However, they can be any other. The substrates used in the proposed method, most often made of metal.

All tiles 4, necessary for facing the base 2, are laid with the face surface M on the surface B of the plates 5. Tiles 4 are laid tightly, end-to-end, essentially without gaps, providing contact between the side surfaces S ₂ and S ₂ , d ₁ and d _2, respectively, of adjacent tiles 4. The overall dimensions of the surface B of the substrate 5 are essentially equal to the overall dimensions of the base 2 and slightly exceed them by an amount that ensures the free laying of tiles taking into account their technological tolerances. On the substrate 5 there is a collar 6 located around the perimeter for fixing the tiles 4, the height of which does not exceed the thickness of the tile 4. Then, a binder material is applied to the back surface N of the tiles 4. The back surface of N tiles 4 to increase the strength of the connection with the main 2 is made rough or with corrugations. As a binder material, any known binder materials used in construction can be used both for the manufacture of building structure elements and for connecting the base of a building structure element with a facing tile. Such materials include concrete, polymer high molecular weight molding or bonding materials, as well as mortars with organic and / or inorganic binders. For example, use such polymeric materials as polystyrenes, polyurethanes, polyurethanes, foams. In the manufacture of panel 1, concrete is used as a binder. In the method, the basis of the building structure element can be formed by applying a binder material on the back surface of the tiles, it can also be formed after the layer of binder material deposited on the tiles has hardened, the base can be made separately and then laid on a layer of binder material deposited on the tiles. In this case, the base can be either monolithic or layered, for example, contain a layer of thermal insulation.

 As shown in FIG. In example 1, a base 2 made of concrete is laid on a binder material layer 7 deposited on the back side of the tiles 4. The thickness k of the layer 7 is selected depending on the overall dimensions of the substrate 2, the material of the tile 4 and the properties of the binder material so as to ensure a strong bond of the tiles 4 with the main 2. As the binder material applied to the back surface of N tiles 4, the same binder material used for the manufacture of the base 2 can be used. Then, conditions are created for the hardening of the layer 7 of the binder material iala. Moreover, the technological drying mode for each binder material used in the proposed method is known. After the binder material has hardened, the finished panel 1 is removed from the substrate 5, which is used to make the next panel 1.

 When using a sufficiently liquid adhesive material, when applied to the back surface of the tiles, grooves are possible on the front surface at the joints of the tiles, before applying the adhesive material, the joints at the contact lines of the tiles are sealed or sealed using known sealants or mastics. It is also possible to seal the joints by applying loose materials onto the back surface of the tiles, for example, a layer of sand when using concrete as a binder.

 For facing the base 2 in the described example, a rectangular ceramic tile 4 of any size used is used, which is placed in an order similar to brickwork. However, you can use any other facing tiles, the order of arrangement of which depends on its shape, since the tiles must be laid on the substrate essentially without gaps and contact their side surfaces.

When the rectangular ceramic cladding tiles 4 (Fig. 2) are arranged in an order that mimics the brickwork, the tiles 4 are stacked in rows along their length, while the tiles 4 in adjacent rows are shifted, placing the side surfaces S ₁ and S _{2 of the} tiles 4 in adjacent rows on a distance "e" substantially equal to half the length of the tile 4. In the method, the operation of laying the tiles 4 on the smooth surface B of the substrate 5 is a fairly simple and time-consuming process. In order to obtain elements of building structures with an external surface that would be similar to brickwork and at large distances, the method uses a rectangular ceramic cladding tile 4, the front surface of which is mated to its side surfaces S located along the width of the tile 4, concave cylindrical surfaces Z. In this case, the length h of these surfaces Z in thickness c of tile 4 is from one third to two thirds of the thickness of tile 4. Adjacent tiles 4 when contacting the side surfaces s S form a groove 8 whose depth is less than the thickness c of tiles 4. The front surface 4 M tiles conjugate with its side surfaces d, disposed on the tile length 4, the cylindrical surfaces having a small radius.

When used for facing the base of an element of a building structure of a facing tile having a different shape, for example, square or hexagonal (not shown in the drawings), to obtain a relief surface, it is advantageous that the front surface of such a tile is also mated with at least one of its side surfaces concave cylindrical or flat surface located at an angle from 30 ^o to 60 ^o to the front surface of the tile. The mating surfaces can be made along the entire perimeter of the tile, with the grooves being between all sides of adjacent tiles. The depth of the grooves depends on the thickness of the tile, it is most beneficial that this depth is from one third to two thirds of the thickness of the tile. With a depth of less than one third of the thickness of the tile, the grooves will be poorly visible at large distances, with a depth of more than two-thirds, the lateral surfaces of the tiles may not adhere well and even be destroyed during installation.

 In the manufacture of decorative elements of building structures or cladding panels, the thickness of which is less than the thickness of the bearing building structures, it is advisable in the method to combine the stage of manufacturing the basis of the building structure element and the stage of lining its outer surface. This embodiment of the method of manufacturing the building structure element differs from the above only in that the basis of the building structure element of a given shape is formed by applying a binder material to the back surface of the tiles laid on the substrate. The finished building structure element is obtained by hardening the binder material. In the manufacture of FIG. 3 of the panel 9, the base 10 is formed by applying a layer of binder material to the layer 11 of ceramic cladding tile 4. As a binder material using this embodiment of the method of manufacturing an element of a building structure, a polymeric binder material, for example polyurethane foam or polyfoam, is used. When it is formed, a layer of a binder material is applied to the back surface of the tiles 4, the thickness of which is selected from the conditions for obtaining the specified thickness of the base 10 after the binder has hardened. The thickness of the layer of binder should be selected taking into account its shrinkage. The panel 9 has a convex outer surface. The surface of the substrate (not shown) used to manufacture the panel 9, intended for laying tiles 4, has the configuration necessary to obtain the desired configuration of the front surface of the panel 9, i.e. made concave. In addition, the substrate should have a shoulder located along the perimeter, the height of which is essentially equal to the thickness of the panel 9, i.e. the total thickness of the layer 11 of the tile 4 and the base 10. In this case, the layer of binder material deposited on the back surface of the tiles 4 can be the same in thickness or different. When forming the base 10 having the same thickness, its back surface is concave. In the manufacture of elements of building structures by this variant of the method, it is possible to obtain a basis of a different shape with any necessary configuration of its back surface, for example, a finishing panel similar to panel 9 with a flat back surface, while the layer of binder material will be different in thickness. To obtain the rear surface of the panel of complex configuration, "molds" are used .. which are installed on a layer of a binder material and removed after hardening.

 Thus, by the method, it is possible to produce a rather cheap building structure element with a ceramic facing tile having a high quality outer surface located on its outer surface.

Claims (8)

 1. A method of manufacturing an element of a building structure with ceramic tiles located on its outer surface by rigidly connecting the back surface of the tiles with the front surface of the base of the element of the building structure using a bonding material, in which all the tiles are laid with the front surfaces on the substrate, placing them in a predetermined order, put on the back surface of all tiles a binder material and create conditions for the hardening of the binder material, characterized in that use ceramic facing tile, the front surface of which is mated with its side surfaces located along the width of the tile, concave cylindrical surfaces, and use a substrate, the surface of which is intended for laying tiles, made smooth and with the configuration necessary to obtain the desired configuration of the building structure element, moreover, when laying tiles provide contact between the side surfaces of adjacent tiles to obtain a raised outer surface of the element, simulating her brickwork.  2. The method according to claim 1, characterized in that when applying the binder material on the back surface of the tiles, the basis of the building structure element of a given shape, which is obtained by hardening the binder material, is formed.  3. The method according to claim 2, characterized in that the basis of the building structure element is formed in the form of a layer of the same thickness, which is selected from the condition of obtaining a given thickness of the base after hardening of the binder material.  4. The method according to claim 1, characterized in that the base of the building structure element is first made, and the binder material is applied to the back surface of the tiles in the form of a layer on which the base of the building structure element is laid and the thickness of which is selected from the condition for obtaining a strong base connection with tiles after hardening of the binder.  5. The method according to any one of claims 1 to 4, characterized in that before applying the binder material, the gaps between the tiles along the contact lines are sealed or sealed.  6. The method according to any one of claims 1 to 5, characterized in that concrete or high molecular weight molding materials or binders or mortars with organic and / or inorganic binders are used as a binder material.  7. The method according to any one of claims 1 to 6, characterized in that the grooves formed upon contact of the side surfaces of adjacent tiles are filled with a binder.  8. Ceramic facing tile having a rectangular shape, the front surface of which is paired with its side surfaces by cylindrical surfaces, characterized in that the front surface of the tile is paired with its side surfaces located along the width of the tile, concave cylindrical surfaces, the length of which over the thickness of the tile is from one third to two thirds of the thickness of the tile.

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