RU2277157C1 - Floor covering - Google Patents

Abstract

FIELD: building, particularly floors formed of tile material.

SUBSTANCE: floor covering comprises a number of tiles. Each tile is provided with two lower tetrahedral extensions formed on tile edges and defining the first right intersection angle and two upper tetrahedral extensions formed on another tile edges and defining the second right intersection angle, which is diagonally opposite to the first angle. Floor coveting tiles are formed of thermoplastic composite material reinforced with net. Lower surface of each tile has pyramid extensions with apexes facing floor base. The extensions define crossing venting channels. Height of each extension is equal to 0.7-0.3δ, distance between adjacent apexes is 6.0-10.0δ, where δ is tile thickness without extensions.

EFFECT: increased wear resistance, strength and operational reliability.

6 cl, 4 dwg

Description

The invention relates to the construction, in particular to the construction of floors made of tile materials, and can be used in individual construction in the construction of residential, industrial and economic facilities.

Known flooring (FR 2579250, IPC 7 E 04 F 15/08, 1986), including plates, consisting of three layers: from the upper layer made of traditional materials, the second layer made of lightweight concrete containing foam polystyrene with a density of 700 kg / m ³ and a third layer made of lightweight concrete having a lower density. The third coating layer on its lower surface has grooves for air circulation. A disadvantage of the known flooring is the complexity of its manufacture. In addition, a significant area occupied by the grooves forms voids under the second layer of plates, which weakens their cross section and thereby limits the area of use of this coating for buildings with significant floor loads.

The closest in the aggregate of essential features analogue to the claimed invention (prototype) is a floor covering (WO 84/00785, IPC 7 E 04 F 15/04, 1984), consisting of tiles, each of which has two lower laps for connecting to adjacent tiles tetrahedral protrusions at the ends, forming a right angle at the intersection, and two upper tetrahedral protrusions at two other ends, forming at the intersection another right angle, located diagonally to the first. In the known floor covering, tiles are made of plywood, which have such disadvantages as low water resistance, a tendency to change volume, susceptibility to decay and combustibility.

The task set by the developers of the new flooring was to create a flooring that would reduce labor costs in its manufacture and installation, as well as increase the wear resistance of the coating, increase its strength and operational reliability. The technical result achieved in the process of solving the task set for the developers was to increase the strength characteristics of floor tiles, as well as the possibility of optimal ventilation of the underground space.

The essence of the invention lies in the fact that in the floor covering, consisting of tiles, each of which for connection with adjacent tiles overlapping has two lower tetrahedral protrusions at the ends, forming a right angle at the intersection, and two upper tetrahedral protrusions at two other ends, forming at crossing another right angle diagonally located first. The floor covering tiles are made of a thermoplastic composite material reinforced with a mesh, and the lower surface of each tile is equipped with pyramidal projections facing the apex towards the base of the floor and forming mutually intersecting ventilation ducts. The height of the pyramidal protrusion is 0.7 -0.3 δ, and the distance between adjacent peaks of the protrusions is 6.0 -10.0 δ, where δ is the thickness of the tile without protrusions.

However, the essence of the invention lies in the fact that in the floor covering adjacent tiles are connected by self-tapping screws located in the overlap zone.

However, the essence of the invention lies in the fact that in the floor covering adjacent tiles are connected by screws placed in the overlap zone.

However, the essence of the invention lies in the fact that in the floor covering the reinforced mesh is located at a distance of 0.2-0.4 δ from the upper surface of the tile.

However, the essence of the invention lies in the fact that in the floor covering as a thermoplastic material used polymer composite.

However, the invention consists in the fact that in the floor covering the width of the tetrahedral protrusions is 0.4-0.6 δ.

Evidence of the possibility of implementing the inventive flooring with the implementation of this purpose is given below on a specific example of flooring. This characteristic example of a specific floor covering according to the invention does not in any way limit the scope of its legal protection. In this example, only a specific illustration of the proposed floor covering is given.

The invention is illustrated graphically, where:

figure 1 schematically shows a tile flooring (axonometry);

figure 2 is the same side view;

figure 3 is the same, bottom view;

figure 4 - installation diagram of the floor covering.

The floor covering consists of tiles 1. Each tile 1 has at its ends two lower tetrahedral protrusions 2 and 3. The lower tetrahedral protrusions 2 and 3 form a right angle at the intersection and serve to overlap each tile 1 with adjacent tiles. In addition, each tile 1 at the other two ends has two upper tetrahedral protrusions 4 and 5. The upper tetrahedral protrusions 4 and 5 form at the intersection another right angle, which is located diagonally to the first. The upper tetrahedral protrusions 4 and 5, similarly to the lower 2 and 3, serve to overlap each tile 1 with adjacent tiles. The width of the protrusions of each tile 1 is 0.4-0.6 δ. This ratio was established as a result of experimental research as the most optimal from the point of view of the connection of tiles with each other overlap. The lower surface of each tile is equipped with pyramidal protrusions 6 facing the apex towards the base of the floor. The pyramidal protrusions 6 are stiffeners to increase the strength properties of the tile 1. The pyramidal protrusions 6 form mutually intersecting at right angles ventilation ducts of variable cross-section in height. The optimal height of the pyramidal protrusions is 0.7-0.3 δ, and the distance between their adjacent peaks "a" is 6.0-10.0 δ, where δ is the thickness of the tile without protrusions. As shown by experimental studies, going beyond the specified ratios reduces the strength characteristics of tile 1, as well as the reliability of ventilation of the under-tile space. To increase the strength of the tile 1, it is reinforced with a mesh 7. The reinforced mesh 7 is located at a distance of 0.2-0.4 δ from the upper surface of the tile. As shown by experimental studies, this is the most optimal ratio in terms of strength characteristics. Tiles 1 are made of a thermoplastic composite material, for example a polymer composite. As the polymer composite, you can use a polymer-sand mass. But tiles 1 can be made of any polymer mass, where materials such as sand, ash from thermal power plants, brick, glass, wood sawdust, straw, vine, husk of sunflower, buckwheat, etc. are used as filler. . In the flooring, adjacent tiles are lapped together by self-tapping screws 8 located in the lap zone, but they can also be connected in another way, for example, with screws also placed in the lap zone.

Installation of flooring is as follows. First, by a known method, a rough screed is poured. Then the first tile 1 is laid on the rough screed at the lowest level of the room angle so that the upper tetrahedral protrusions 4 and 5 are close to the wall, and the lower tetrahedral protrusions 2 and 3 are free. When performing this operation, tile 1 is set according to level. To achieve its horizontal position, if necessary, partially remove the pyramidal protrusions 6 located in the lower part of the tile 1. This auxiliary operation will not cause difficulties, since the thermoplastic composite material is easy to cut and therefore it will be easy to cut off part of the pyramidal protrusions. After this, the second tile 1 is laid on the first tile 1 already laid and installed horizontally so that its two upper tetrahedral protrusions are overlapped on the two lower tetrahedral protrusions of the first tile 1. In this case, the horizontal position of the second tile 1 and tight fit are achieved the upper tetrahedral protrusions of the second tile 1 to the lower tetrahedral protrusions of the already laid horizontally first tile 1. When performing this operation to achieve a horizontal position t a swarm of tiles 1, if necessary, partially remove the pyramidal protrusions 6 located in the lower part of the second tile 1. After achieving the above, the first and second tiles 1 are fastened in place of overlapping tetrahedral protrusions with screws 8. The third and subsequent tiles 1 are laid in the same way as the second tile was laid . The laying process of the first row of tiles 1 of the floor covering continues right up to the wall opposite to the beginning of the laying of tiles. If at the same time the last tile 1 does not fit completely, then it is cut in place. Similarly to laying the first row of tiles 1 of the floor covering, the second row is laid. When laying the second row of tiles 1, tiles 1 of the second row are laid on already laid and horizontally installed tiles of the first row so that their upper tetrahedral protrusions are overlapped on the lower tetrahedral protrusions of the first row. Moreover, each time tiles 1 of the first and second rows are fastened in place of overlapping of tetrahedral protrusions with self-tapping screws 8. The third and subsequent rows of tiles 1 are laid in the same way as the second row and so on until the installation of floor covering of the entire area of the room is completed.

The application of the proposed floor covering in construction will reduce labor costs during its installation on the construction site, simplify the installation itself, since during installation the floor covering does not require the use of a leveling layer, for example, dry backfill in the form of expanded clay sand with a specially selected particle size distribution. In addition, the floor cover design allows for optimal ventilation of the underfloor space. However, after construction, during the operation of the floor covering there will be no need for frequent repairs, since this floor covering is not afraid of moisture, has considerable strength compared to known floor coverings. In addition, given that recycled material is used for the manufacture of polymer-sand tiles, this will dramatically reduce the cost and simplify the construction and operation of buildings and structures in terms of flooring.

Claims (6)

1. A floor covering consisting of tiles, each of which, for connection with adjacent tiles, overlaps has two lower tetrahedral protrusions at the ends, forming a right angle at the intersection and two upper tetrahedral protrusions at the other two ends, forming at the intersection another right angle, diagonally located the first, characterized in that the tiles are made of a thermoplastic composite material reinforced with a mesh, and the lower surface of each tile is equipped with pyramidal protrusions facing the top to the sides at the base of the floor and forming mutually intersecting ventilation ducts, the height of the pyramidal protrusion being 0.7-0.3 δ, and the distance between adjacent vertices of the protrusions is 6.0-10.0 δ, where δ is the thickness of the tile without protrusions. 2. The floor covering according to claim 1, characterized in that the adjacent tiles are connected by self-tapping screws located in the overlap zone. 3. The floor covering according to claim 1, characterized in that the adjacent tiles are connected by screws placed in the overlap zone. 4. The floor covering according to claim 1, characterized in that the reinforced mesh is located at a distance of 0.2-0.4 δ from the upper surface of the tile. 5. The floor covering according to claim 1, characterized in that a polymer composite is used as a thermoplastic material. 6. The floor covering according to claim 1, characterized in that the width of the tetrahedral protrusions is 0.4-0.6 δ.

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