SU737583A1 - Floor for building and structures with moist environment - Google Patents

Description

The invention relates to construction and can be used as a floor covering for buildings and structures with a wet mode. An overlap is known, including supporting reinforced concrete slabs laid on beams, a water insulating layer, a whole-forming layer, butt joints of ceiling elements and gutters 1. The disadvantage of this technical solution is the low surface strength of the coating. It is also known overlap, including load-bearing reinforced concrete slabs laid on beams, waterproofing layer, slope-forming layer, butt joints of the ceiling elements, gravel sealing layer and a clean floor covering 2. The disadvantage of this technical solution is the increased complexity of the coating. The closest technical solution to the invention is a floor covering for buildings and structures with a wet mode, including load-bearing reinforced concrete slabs laid on beams, a water insulation layer, a slope-forming layer, a clean floor covering, butt joints of floor elements and water drains. 3 The disadvantages of this technical solution are The increased labor intensity of production and the consumption of materials overlap. The purpose of the invention is to reduce the labor intensity of production and material consumption of the overlap. The goal is achieved by the fact that in the interfloor overlap for buildings and structures with a wet mode, including load-bearing reinforced concrete slabs laid on beams, a waterproofing layer, a slope-forming layer, floors, butt joints of ceiling elements and drains, reinforced concrete floor slabs are waterproof, their floor surface is elevated with slopes from the edges of each slab — inward to the gutters, and the butt joints of reinforced concrete slabs are airtight. In addition, on the butt vertical surfaces of reinforced concrete slabs there are grooves for realization in the upper part of the cement mortar, elastic sealant and waterproof mortar in the lower part of the groove, and the slopes of the reinforced concrete slabs are made with the formation of an internal tray having a slope to the drain, and the inner tray with the drain is made asymmetrically to the surface of the slab so that the drains of each group of four adjacent plates are located around one intake, while the watersheds are located along the contour of each Second plate in places plate interface.

FIG. 1 shows a section of interfloor overlap, a plan; FIG. 2 - interfloor overlap, cross section; in fig. 3 - weirs, cross section; in fig. 4 - device of the joint of reinforced concrete slabs of the interfloor overlap.

The interfloor overlap is made of reinforced concrete slabs 1. Slabs 1 are made of waterproof concrete. The waterproofness of the concrete is ensured in the manufacture of plates by densely packing it into a form with increased vibration or the introduction of special additives.

The surface of the clean floor plates 1 has slopes 2 from the edges inwards the floor of the plate on four sides with the formation of tray 3, which has a slope to the drain 4, located asymmetrically field of the plate, the adjacent of which are connected to one water receiver 5.

Slopes 2, inner tray 3 with a slope are made when molding reinforced concrete slabs with the formation of a clean floor surface from the shape pallet.

Reinforced concrete water-resistant plates are supported on the beams b and columns 7. The joints of reinforced concrete slabs 1 are located on the watersheds 8, which provides the best from - to the waters of water from them.

On the butt vertical surfaces of those K-Chplit 1, shaped, for example, oval grooves 9 and 10 are molded. The oval shape of the grooves is most convenient for monolithing and installing sealant; in the slots 9 and 10, the main and auxiliary keys are made, respectively. The main tspokka in the groove 9 is made of waterproof solution 11 (for example, RBM VODGEO). On top of it is applied an elastic sealant 12, then a protective layer of cement mortar 13, held to prevent the sealant of the elastic sealant 12 from penetrating.

 key (in the groove 10).

In the finished building, the structure in the process of cleaning the premises with the use of flushing with water or wet technological processes, resulting in a large amount of liquid entering the floor, the latter, on inclined surfaces (slopes), 2 floors drains into tray 3, and from there into the drain 4. Water From the drains 4 of each group of four adjacent plates 1 flows into one water receiver 5. At the same time, the joints of the floor plates located on the watersheds 8 are in the most favorable conditions. The main tongue in the groove 9 ensures reliable joint operation of the floor slabs, and the secondary chip in the groove 10 protects the elastic sealant 12 from mechanical damage.

Such an implementation of the interfloor overlap reduces the laboriousness of its

fabrication and consumption of materials.

Claims (5)

1. Floor covering for buildings and structures with a wet mode, including load-bearing reinforced concrete slabs laid on beams, a water insulation layer, a slope-forming layer, floors, butt joints of floor elements and drains, in order to reduce the labor intensity of production and material intensity, Reinforced concrete slabs are made waterproof, and their floor surface is sloped from the edges of each slab inward to the gutters, and the butt joints of the plates are sealed. 2. An overlap of claim 1, characterized in that grooves are made on the butt vertical surfaces of the reinforced concrete slabs for placement in the upper part of the cement mortar, elastic sealant and waterproof solution in the lower part of the groove. 3. The overlap according to claim. Characterized in that the slopes of the reinforced concrete slabs are made with the formation of an internal chute, which has a slope to the drain. 4. The overlap of claim 1, wherein the watersheds are located along the contour of each plate at the junction of the plates. 5. The overlap of claim 1, characterized in that the tray with the drain is made asymmetrically to the surface of the slab, with the drain lines of each group of four plates arranged around one intake. Information sources, taken into account in the examination 1. P. P. Serbinovich. Civilian buildings of mass construction, M., “Higher School, 1975, p. 190, fig. 242. 2. Tupolev, M. S., Constructions of Civilian Buildings, M., Stroyizdat, 1968, p. 105, fig. Viii, 20. 3. Technical guidelines on the use of improved flooring structures in laundries and baths. Moscow, ONTI, Academy of Communal Services, 1976, p. 18-22. FIG. 2