RU2138602C1 - Facing tile - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: facing tile is made in the form of flat rectangular strip with front and rear sides. It has longitudinal and lateral ribs in rear side which are parallel to edges. Made across longitudinal ribs are through-holes. Equal number of through-holes is made in each longitudinal rib. Aforesaid embodiment of facing tile allows for more reliable fastening of tiles to structural components made of light and superlight concrete. EFFECT: higher efficiency. 5 cl, 1 dwg

Description

 The invention relates to construction, namely, facing tiles with fasteners on the back side and to methods for finishing concrete products with tiles in the manufacture of them in the form of the front side down.

 Known facing tiles made in the form of a flat rectangular plate with protrusions on the back side (a.s. of the USSR N 224028, class E 04 F 13/14, 1965). A disadvantage of the known technical solution is the low reliability of fastening tiles to building elements from light and especially light concrete.

 Closest to the claimed technical solution is a facing tile according to the patent of England N 2144782, class. E 04 F 13/08, 1985. The tile has a flat shape, lateral and longitudinal ribs are made on the back side. A disadvantage of the known technical solution is the low reliability of fastening tiles to building elements from light and especially light concrete.

 An object of the invention is to increase the reliability of fastening tiles to building elements from light and particularly light concrete.

For the device as an object of the invention, the solution of the technical problem is achieved by the fact that the facing tile is made in the form of a flat rectangular plate with longitudinal and transverse ribs on the back side, and through holes are made in each of the longitudinal ribs, the longitudinal ribs are parallel to the tile edge, the through holes are made across the longitudinal ribs, through holes are made of cylindrical shape, with the same number of holes made in each longitudinal rib, cylindrical holes made enes coaxial with constant pitch l ₂ along each longitudinal edge, the internal cross-section of the longitudinal ribs has the shape of an isosceles trapezoid, the value of b which lower base is in the range 1,0a <b <2,0a, variable with the upper base 0,7a <c <1.2a, the value h of the trapezoid height is 0.7a <h <3a, the diameter d of the through holes is 0.4h <d <0.6h, the distance X from the lower base of the trapezoid to the axis of each through hole lies in the interval (d / 2 + 3 mm) <X <(d / 2 + 5 mm), where a is the thickness of the tile, the cross section of the extreme longitudinal ribs has the form of a trapezoid, the outer side which is perpendicular to its base, the cylindrical hole centers in the longitudinal ribs are at a distance l _2, whose value lies in the range 5d <l ₂ <20d, cross-sectional view of the transverse edges has the form of a rectangular trapezium with h _1, the height, the magnitude of which lies in the range 0, 5h <h ₁ <0.6h, the tile is equipped with reinforcing elements made with the possibility of their placement in the through holes of the longitudinal ribs.

 For the method, the solution of the technical problem is achieved by the fact that the method of attaching the facing tile to the building element consists in applying a temporary protective coating to the facade surface of the tile, placing the tile in the mold and pouring the mold with concrete mixture, the tile with the reinforcement installed or without reinforcement is placed in the form with the edges facing up then vibrate the shape.

In FIG. 1 shows a General view of the tiles;
in FIG. 2 is a section AA of FIG. 1;
in FIG. 3 is a section BB of FIG. 1.

The facing tile 1 is made in the form of a flat rectangular plate and contains longitudinal ribs 2 on the back side, parallel longitudinal edge ribs 3 and two transverse ribs 4 made along the edges of the tile. All ribs are made on the back of the tile 5. Position 6 denotes the thickness of the tile. Through each cylindrical hole 2 and through the longitudinal longitudinal edge 3, through holes 7 are made, each hole having the same number of holes, along each longitudinal edge the holes are made with constant pitch, through holes in two adjacent longitudinal ribs are made coaxial. The cross section of the longitudinal ribs 2 has the shape of an isosceles trapezoid with the lower base 8 and the upper base 9, while the value b of the lower base 8 lies in the range 1.0a <b <2.0a, the value c of the upper base lies in the range 0.7a <c <1.2a, the value h of the height of the trapezoid 0.7a <h <3a, the diameter d of the through cylindrical hole 0.4h <d <0.6h, the distance X from the lower base of the trapezoid to the axis of each through cylindrical hole lies in the interval (d / 2 + 3 mm) <X <(d / 2 + 5 mm), where a is the tile thickness. The distance l ₂ between the centers of two adjacent through-cylindrical holes on the longitudinal edge lies in the interval 5d <l ₂ <20d. The facade surface of the tile is indicated by the position 10. The edge longitudinal ribs 3 have a cross-section in the shape of a rectangular trapezoid, the outer side of which is perpendicular to its base, and the remaining dimensions of the edge longitudinal ribs 3 are the same as the dimensions of the longitudinal ribs 2. The two transverse ribs 4 are solid and have in cross section the shape of a rectangular trapezoid with a height of h ₁ , the value of which varies in the range of 0.5h <h ₁ <0,6h. The facing tile may be provided with reinforcing elements configured to accommodate longitudinal ribs in the through holes, for example, with metal rods with a diameter smaller than the diameter of the through cylindrical hole (not shown in the drawings).

 The device is implemented as follows.

 A protective coating is applied to the facade surface 10 of tile 1, tile 1 with or without installed reinforcement is placed in the form with the edges facing up, then the concrete mix is placed in the mold, mainly light or especially light, then the form is vibrated. Under the action of vibration, the fine-grained mortar component released from the molding mixture flows into the through cylindrical openings 7 of the longitudinal ribs 2 and, when monolithic, forms a rigid connection of the facing tile 1 with a building element made of light or especially light concrete, which increases the reliability of fixing the tiles. The presence of reinforcement in the through cylindrical holes 7 allows you to distribute the loads during operation to distribute to a larger volume of the building element and thereby increase the reliability of fixing the tiles to the building element.

Claims (6)

 1. A facing tile made in the form of a flat rectangular plate with a front and rear sides and edges, longitudinal and transverse ribs on the back, parallel to the edges, characterized in that through holes are made across the longitudinal ribs, the same number of through holes are made in each longitudinal rib . 2. Facing tile according to claim 1, characterized in that the through holes are cylindrical and coaxial with a constant pitch l ₂ along each longitudinal rib. 3. Cladding tile according to claim 1, characterized in that the cross section of the longitudinal ribs has the shape of an isosceles trapezoid, the value of the lower base of which lies in the range 1.0a <b <2.0a, the value C of the upper base is 0.7a <C <1 , 2a, the value h of the trapezoid height is 0.7a <h <3a, the diameter of the through cylindrical hole is 0.4h <d <0.6h, the distance X from the lower base of the trapezoid to the axis of each through cylindrical hole is in the range
(d / 2 + 3 mm) <X <(d / 2 + 5 mm),
where a is the thickness of the tiles
the cross section of the edge longitudinal ribs has the appearance of a trapezoid, the lower side of which is perpendicular to its base. 4. Cladding tile according to claim 2, characterized in that the centers of adjacent through cylindrical holes in the longitudinal ribs are at a distance l ₂ from each other, the value of which lies in the range
5d <l ₂ <20d,
where d is the diameter of the through cylindrical hole. 5. Cladding tile according to claim 3, characterized in that the cross section of the transverse ribs has the shape of a rectangular trapezoid with a height h ₁ , the value of which lies in the range
0.5h <h ₁ <0.6h.  6. Cladding tile according to claim 5, characterized in that it is equipped with reinforcing elements made with the possibility of their placement in the through holes of the longitudinal ribs.

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