CZ2013568A3 - System for constructing concrete floor on soil consolidated surface in ground level buildings store - Google Patents

Abstract

The system for the construction of a concrete floor for strengthening the surface of the ground in the ground-floor structures consists of large-area concrete tiles (1) equipped with internal transverse holes (5) and corner transverse holes (6), having the form of a system of three mutually connected truncated cones (7.1, 7.2, 7.3), whose smaller foundations are oriented towards the face of the large-area concrete tile (1). The largest conicity has a central truncated cone (7.2). Part of the system is a set screw system (4) provided with a longitudinally cut expanding threaded dowel (3) in the form of expanding collets with an end protrusion (9) provided with an outer end support surface (8) in the expanding portion of the threaded dowel (3). This support surface (8) has a conicity similar to that of a central truncated cone (7.2) of the inner transverse openings (5) and the corner transverse openings (6) of the tiles (1). The spacing of the inner transverse openings (5) and corner transverse openings (6) is given by the requirements for the laying of large-area concrete tiles (1) in a defined vertical position and the usability requirements for tile laying with the sealant to form a cushion support cushion (2).

Description

System for the construction of concrete floor on the paved surface of soil near ground buildings

Technical field

The invention relates to a new system for making floors in ground-floor small constructions, the purpose of which is to reinforce the surface of the ground soil in ground-floor rooms, focusing on objects which need to be used during construction, such as in disaster recovery areas. developed as part of the development of a system for extremely modular construction of residential houses.

BACKGROUND OF THE INVENTION

Administrative systems of technically advanced civilizations usually do not allow fully utilization of construction technologies in the area of housing construction, which allows shortening of the construction of a family house under one week. Prefabricated houses built in less than one month are presented as temporary houses for crisis situations. In this situation, concrete floors are made almost exclusively by open concreting carried out on a well compacted subsoil, using the walls of the rough construction under the foundation joint as a mold, concreting with gradual alignment of the floor surface according to the system to the leveling of sleepers.

In the case of extremely mechanically stressed floors of entrance halls, etc., it is also possible to use outdoor technological variants intended, for example, for the construction of the yard, etc., especially the option of reinforcing the surface with interlocking pavement.

Further modifications of the floor surface above the basic concrete floor have many options, which differ in terms of the requirements for the quality of the base floor, especially the requirements for flatness, smoothness, perfection of the leveling and mechanical resistance.

When looking at the solution more generally, it is necessary to mention other variants of solutions that do not use concrete for surface reinforcement and are usually improved variants of historically older solutions of stone or wooden floors, which allow the application of similar finishes as concrete floors.

The disadvantages of the previously known solutions for flooring in rooms above the soil surface in the foundation joint of small buildings are the delays and time consuming of the construction, which is undesirable especially during the critical construction time of the shell. Other disadvantages are the need for skilled craftsmen to work in the field, the need to fully solve the underground placement of connections for network distribution systems and wastewater systems before concreting the base floors. Due to the frequent imperfections of ground soil compaction, it is necessary to take into account the consumption of cement binder to level the surface and increase the thickness of the concrete layer to compensate for uncertainty of soil compaction, increased consumption of gravel materials for surface preparation. These disadvantages also seriously increase construction costs.

SUMMARY OF THE INVENTION

The disadvantages of the prior art solutions are eliminated or significantly reduced by the system for the construction of a concrete floor on the reinforced soil surface of the ground structures according to the present invention. This system consists of large-area concrete tiles provided with internal transverse holes and corner transverse holes, which are in the form of a set of three consecutive truncated cones whose smaller bases are oriented towards the face of the large-area concrete tile. The largest conical shape is the central truncated cone. The set screw further includes a set screw system provided with a longitudinally cut expansible threaded dowel in the form of expanding collets with an end projection provided with an end outer abutment surface in the expansive portion of the threaded dowel, the abutment having a conicity similar to the middle truncated cone The placement of the internal transverse holes and corner transverse holes is determined by the requirements for placing large-scale concrete tiles in a defined vertical position by means of set screws fastened in expanding threaded dowels and by the usability requirements for lining the tiles to form the support cushion.

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Preferably, the basic size of the large-size concrete tile is 1 x 1 m, its thickness is in the range of 2.5 to 3 cm and the diameter of the narrowest portion of the inner transverse holes and the corner transverse holes is 5 cm. The large-area concrete tile is preferably provided with eight transverse holes, four corner holes spaced from the edges of the large-area concrete tile 15 cm and four internal transverse holes spaced from the center of the edges of the large-area concrete tile 25 cm.

It is also suitable if large-area concrete tiles are impregnated with preservatives against biological damage to dwellings such as fungi, fungi, insects, rodents and other domestic pests.

The main benefit of the solution according to the invention is that making a floor with a high level of flatness and wear resistance of the base floor surface does not require the expertise and training of the contractor. The flooring process makes it possible simply by spreading the tiles on a leveled ground so as to create a temporary floor for the period of construction for a temporary dwelling which is sufficient for cleaning needs and the like, and allows easy adjustment of the underground distribution systems according to the dwelling verified needs. Another advantage is that the solution makes it possible to finish the flooring in the final quality only after the practical verification of the functionality of the underground distribution and after the natural compaction of the ground soil. In terms of restoration of a disaster-destroyed dwelling, the construction of the floors according to the invention leads to a minimal extension of the time interval between the start of the construction of the replacement dwelling and the possibility of occupying the dwelling by those affected by the disaster.

Clarification of drawings

An exemplary embodiment of the invention is shown schematically in three figures, wherein FIG. 1 is a plan view of a concrete floor composed of large-area tiles. Giant. 2.1 is a detailed cross-sectional view of a tile providing a view of an adjusting screw fixture in function of supporting a tile in a desired leveling sheet during pouring; FIG. 2.2 is a detailed cross-sectional view of the tiles providing a view of the screw fixture in the pull-out anchor function. Giant. 3 is a detailed cross-sectional view of a use of a threaded anchor of the adjusting fixture to retain a funnel for lining the tile with a concrete mixture.

DETAILED DESCRIPTION OF THE INVENTION

An exemplary embodiment of a concrete floor composed of large-area tiles 1 according to the invention is shown in FIG. 1, including the dimensions of the most versatile dimensions of large-scale tiles 1 used for floor covering of typical dimensions for small buildings 3φ, 5 m. The basic size of large-scale concrete tiles 1 is here 1 x 1 m, its thickness is 2.5 to 3 cm.

Other elements of the system for making the concrete floor according to the invention in

are shown in FIG. 2.1 and FIG. Fig. 2.1 shows the elements for lifting the tiles into the leveling table. 2.2 elements for extracting threaded dowels. In FIG. 3 shows the elements required for paving the tiles.

Large-area concrete tiles 1 are provided with inner transverse holes 5 and corner transverse holes 6. These inner transverse holes 5 and corner transverse holes 6 are in the form of a set of three consecutive truncated cones 7.1. 7.2. 7.3. whose smaller bases are oriented towards the face of the large-area concrete tile 1 Another part of the system is the set screw system 4 provided with a longitudinally cut expanding threaded dowel 3 in the form of expanding dowel collets with an end projection 9 provided with an end outer abutment surface 8 provided with cross-sections, the abutment surface (8) on the outside of the truncated cone having the same conicity as the central truncated cone

7.2 internal transverse holes 5 and corner transverse holes 6. The layout of the internal transverse holes 5 and corner transverse holes 6 is determined by the requirements for the placement of large-area concrete tiles 1 in a defined vertical position by means of adjusting screws 4 fixed in expanding threaded dowels 3. Tiles with sealant to make the support cushion 2.

The purpose of the taper of the inner transverse holes 5 and the corner transverse holes 6 is merely to facilitate the deformation in tile production. The central truncated cone 7.2 has a conicity of about 45¾ and has a stop function and the abutment surfaces for the end projection 9 of the spacer collar with the outer conical abutment surface 8 of a similar conicity to the inner conical surface of the central truncated cone 7.2.

In the exemplary embodiment, the large-area concrete tile 1 is provided with eight transverse holes, four inner corner holes 6 spaced from the edges of the large-area concrete tile 15 cm and four internal transverse holes 5 spaced from the center of the edges of the large-area concrete tile 125 cm. The diameter of the inner transverse holes 5 and the corner transverse holes 6 is here at the narrowest part 5 cm.

The outer shapes of the subject large-area tile 1, the inner transverse openings 5 and the corner transverse openings 6 are chosen so that they can be produced without difficulty on standard belt lines for the production of small surface prefabricated elements. This creates a prerequisite for the low purchase price of the key exterior floor elements, which allow application on a non-compacted, only leveled ground soil surface by simply placing it in a definite ground plan position. In this makeshift condition, the floor can be left until the building is fully populated and the flooring can be completed as part of the final floor surface decision.

Prolonged use of the floor in the condition of bulk concrete tiles 1 will naturally ensure the desired level of compaction of the subsoil. If the grout 2 to be grouted is wider than the thickness of the concrete pavers 1 used, possibly damaged pieces of tile can be left in place and another replacement concrete pavement 1 can be used for the underfloor.

Bringing the floor surface into a definite leveling system implies pushing the threaded dowels 3 into all the inner transverse holes 5 and corner transverse holes 6, fitting the corner transverse holes 6 with adjusting screws 4 and partially pushing the support faces 12 of the adjusting screws 4 into the subsoil 11. all the set screws 4 so as to locally compact the soil 11 under the fronts 12 with a pressure greater than that expected during the lining operations. Consequently, it is advantageous to select one concrete tile 1 as the base tile and to stabilize it in the final leveling. Furthermore, it is advantageous to set a spirit level equipped with a laser with a swept beam in the plane above the desired leveling on this concrete concrete tile.

6 'of the surface of the concrete tiles 1, but below the upper face of the threaded dowels 3. After this preparation, the adjusting screws 4 can be gradually tightened so that the swept laser beam line reaches the same height level on all threaded dowels 3. In the joint under the concrete tiles 1, the grout 2 should remain so that its level in the funnel 10 remains safely above the level of the underside of the concrete tiles 1. After the grout 2 has hardened, the set screws 4 can be removed from the corner transverse holes 6 and replaced by funnels 10 moved from the inner transvers 5 and complete the pouring process by pouring corner portions of concrete tiles 1 with grout 2 over funnels 10 fixed in threaded dowels 3 corner transverse holes 6. For pulling threaded dowels 3 from inner transverse holes 5 and from corner transverse holes 6 after casting By means of grout 2 it is advantageous to use set screws 4 caught in the threads of the upper edge part of the threaded plug 3 and by means of a dismounting nut 13 through the dismounting supports 14 gradually loosen the threaded plugs 3 before filling the grout 2. in the inner transverse holes 5 and in the corner transverse holes 6 and align their filling with grout 2 or other trowel to the plane of the surface of the tiles 1.

Industrial applicability

The new principle of making concrete floors is advantageous especially for self-made small constructions. It has a general use, especially where it is necessary to minimize the requirements for skilled field work, where it is a smaller scope of work where relocation and use of universal construction equipment would be disproportionately expensive, or where there is an interest in extremely shortening the necessary operational closure. appropriate construction activities or for extremely stressed parts of floors where maintenance requires more frequent overhauls etc.

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PATENT CLAIMS

Claims (3)

PATENT CLAIMS A system for constructing a concrete floor on a reinforced soil surface in a ground structure, characterized in that it consists of large-area concrete tiles (1) provided with internal transverse openings (5) and corner transverse openings (6), the internal transverse openings (5). ) and corner transverse openings (6) are in the form of a set of three consecutive truncated cones (7.1, 7.2, 7.3), the smaller bases of which are oriented towards the face of the large-area concrete tile (1) and and further comprises a set screw system (4) provided with a longitudinally extending expanding threaded plug (3) in the form of expanding collets with an end projection (9) provided with an end outer abutment surface (8) in the expanding portion of the threaded plug (3); this abutment surface (8) has the same conicity as the middle truncated cone (7.2) The internal transverse apertures (5) and corner transverse apertures (6) are determined by the requirements for the placement of large-area concrete tiles (1) in a defined vertical position by means of adjusters screws (4) fastened in expanding threaded dowels (3) and usability requirements for lining the tiles with a sealant to form the support cushion (2). Assembly according to claim 1, characterized in that the basic size of the large-size concrete tile (1) is 1 x 1 m, its thickness is 2.5 to 3 cm, the diameter of the inner transverse holes (5) and the corner transverse holes (6) the outer part is 5 cm, the large-area concrete tile (1) being provided with eight transverse holes, four corner holes (6) spaced from the edges of the large-area concrete tile (1) 15 cm and four inner transverse holes (5) spaced from the center edges of large-area concrete tiles (1) 25cm. System according to claim 1, characterized in that the large-area concrete tiles (1) are impregnated with protective agents against biological damage.