UA21232U - Pre-fabricated monolithic reinforced-concrete floor - Google Patents

Abstract

Pre-fabricated monolithic floor has upper reinforced plate, contour and crossed ribs, pre-fabricated ribbed-slab fillers made of light material, for instance porous concrete or foam-polystyrene, those are placed in gaps between ribs. The base of the floor is made of gypsum-fiber super-sheets "Knauf" placed on casing, to those pre-fabricated inserts made of light materials with depressions at end surfaces are glued. Gypsum-fiber super-sheets are attached to reinforced-concrete floor ribs at beneath by means of threaded fixation elements after concreting and stripping.

Description

Description of the invention

The useful model belongs to the field of construction and can be used in the arrangement of monolithic 2 floors and coverings completely concreted on construction sites during the construction of residential, public and industrial buildings, both frame and bearing walls.

A known floor plate |1| ribs with sound- and/or heat-insulating foam plates, which are formwork for reinforced concrete ribs.

The disadvantage of such a floor is the absence of an upper concrete layer, due to which there is a small part of concrete in the compressed zone 70 of the floor section, which leads to inefficient use of the floor material and reduces its bearing capacity. The disadvantages of this floor include the complexity of manufacturing, an intermittent cycle: first the concrete base is formed, and then foam boards are laid, then the reinforcement of the ribs and then they are concreted, and for the arrangement of the floor, additional preparation of the screed is required.

Such a plate does not meet the required strength characteristics and is suitable for covering small spans. 12 A concrete slab is known, the method of its production and the material for laying in the slab. |21 During its manufacture, longitudinal and transverse reinforcement are placed on the formwork, and auxiliary reinforcement is similarly placed between them.

Then the upper reinforcement, longitudinal and transverse, is laid in order to divide the space in the formwork into sections.

Bulky material with rounded corners in the form of cubes of light materials is placed in these gaps between the sections, which are fixed on the lower auxiliary armature with the help of cross-shaped recesses in the base. As a result, a space is formed from longitudinal and transverse rods, upper and lower reinforcement, which is filled with concrete and a reinforced concrete slab is obtained, which effectively transfers the load and rests on four sides.

Disadvantages of this design include liners of a complex shape with rounded corners to improve the flow of concrete and the presence of cross-shaped recesses in their base for fixing the liners on the auxiliary 22 lower armature, which also requires additional equipment to keep light liners from floating when pouring concrete. After pouring the slab with concrete and removing the formwork, additional measures are needed to protect the auxiliary fittings from corrosion and grinding of the ceiling. The lack of transverse reinforcement in the ribs does not allow the use of such slabs for the arrangement of the overlaps of large spans.

There is a known prefabricated monolithic overlap |Z| accepted by the applicant as a prototype. The ceiling contains liners made of lightweight concrete in the form of a truncated pyramid, while each liner has mounting outlets, and in the gaps between the liners, reinforcing frames are installed, and these gaps are concreted, forming cross beams, and a monolithic reinforced concrete slab is created on top of the liners. with

The disadvantages of such a design include the manufacture of special structural reinforcement of the liners, "-- the complexity of the manufacture of liners with mounting outlets and the high thermal conductivity of the plate due to the through concrete ribs. high school

The technical task of the proposed useful model is to simplify the manufacture and reinforcement of the floor in the conditions of the construction site, increase the heat and sound insulation properties of the floor, increase the level of fire resistance and create a flat ceiling surface. "

The task is solved by the fact that in the proposed solution, the precast monolithic reinforced concrete Z 50 floor, which contains the upper reinforced plate, contour and cross ribs, prefabricated inserts made of light material, for example, porous concrete or polystyrene foam, which are placed in the gaps between the slab, contour and

Iz" cross ribs, prefabricated inserts made of light material, for example, porous concrete or expanded polystyrene, which are placed in the gaps between the ribs, differs in that the base of the floor is made of "Knauf" gypsum fiber supersheets laid on the formwork, to which prefabricated inserts made of light materials are glued with recesses on the end surfaces, and gypsum fiber supersheets are attached to the reinforced concrete floor ribs from below with the help of threaded fasteners after concreting and decking. - In the proposed design, threaded fastening elements ensure the strength of fastening of gypsum fiber supersheets to the edges of the ceiling, which allows you to create a flat surface of the ceiling, increase sound insulation and heat conductivity, fire resistance level. Inserts made of light materials have recesses on the end faces

Ge) 20 surfaces that form keys, preventing the liners from falling out after removing the formwork before fixing the "Knauf" gypsum fiber supersheets to the ribs. o The proposed solution is shown on the drawing, where Fig. 1 shows the general floor plan, Fig. 2 shows a part of the floor in section. 29 The prefabricated monolithic floor includes prefabricated liners 1, made of light material, for example, aerated concrete, polystyrene foam, etc., Knauf gypsum fiber supersheets 2, concrete ribs 3, reinforced with reinforcing frames 4, reinforced mesh 5, upper concrete slab of the floor 6, recesses on the end surfaces of the liners 7, floor formwork 8, threaded fasteners 9.

The formation of a prefabricated monolithic floor is carried out in the following sequence. Formwork 8 is installed, at 60 the formwork is laid with "Knauf" gypsum fiber sheets 2 fitted between them, and prefabricated inserts made of light materials 1 are glued to them according to the preliminary marking. , which is connected to reinforcing frames 4. After that, concreting is carried out. The concrete filling of the spaces between the liners 1 forms the ribs 3, filling the depressions 7 and the keys are formed. At the same time, the top plate 6 is concreted. The glued liners do not pop up during concreting and do not require additional fastening for fixation. Indentations on the end surfaces of the liners create keys that prevent the liners from falling out after removing the formwork before fixing the "Knauf" gypsum fiber supersheets to the ribs. After the concrete gains strength, the formwork 8 is removed and Knauf gypsum fiber supersheets are fixed to the reinforced concrete ribs of the slab with threaded fasteners 9 in steps of 60-80 cm from below

The proposed technical solution allows you to get a floor with low thermal conductivity, increased sound insulation, an additional level of fire resistance and a flat ceiling surface ready for finishing.

Sources of information: 1. Application of the Federal Republic of Germany Mo3614368, MPKA EO4B5/23, publ. 29.10.1987. 70 2. Patent of Japan Мо34388552, МПК7 ЕО4С5/32, publ. 18.08.2003. 3. Patent of the Russian Federation Mo2199635, IPC7 E0O485/02, publ. 27.02.2003.

Claims (1)

The formula of the invention , , , c, , o, Prefabricated monolithic floor containing an upper reinforced plate, contoured and crossed ribs, prefabricated inserts made of light material, for example, porous concrete or polystyrene foam, which are placed in the spaces between the ribs, which is distinguished by that the base of the floor is made of "Knauf" gypsum-fiber supersheets laid on the formwork, to which prefabricated inserts made of light materials are glued with recesses on the end-hole surfaces, and the gypsum-fiber supersheets are attached to the reinforced concrete ribs of the floor from below with the help of threaded fasteners after concreting and formwork. - s so s "- s - with . and? ime) - ime) o 50 Ko) s 60 b5