SU996665A1 - Floor - Google Patents

Description

154) OVERLAPPING

The invention relates to the construction and can be used in the device of prefabricated monolithic floors,

A precast-monolithic overlap is known, including precast plates, the adjacent side faces of which are arranged with a gap whose width exceeds the height of the lateral faces, the latter being provided with sockets, the reinforced concrete space placed in the gap, consisting of flat vertical frames, united by transverse rods.

The presence of nests ensures the inclusion of a monolithic part of the overlap in the joint work on bending with prefabricated plates when the impact on the overlap of the transverse load Cl.

A disadvantage of the known overlap is the unreliability of its operation when arranging holes in a monolithic part, for example, for passing communications over the entire width of the gap between the plates. In this case, the longitudinal reinforcement intersected by the openings cannot be effectively put into operation, and under unfavorable operating conditions, for example,

shock or vibration effects on the floor, as well as some defects in the manufacture of a monolithic section, such as sinks, may crack, with the subsequent threat of collapse of individual monolithic sections.

The closest technical solution to the invention is to retrofit, into a box: precast reinforced concrete slabs that have nests on adjacent faces, and monolithic sections, each of which is reinforced with a frame with U-shaped elements with 15 bends at the ends.

In this overlap, the bends of the reinforcement cages of the U-shaped profile are made at a right angle, they are supported on the upper edges and are protected

20 monolithic concrete, which forms a projection of the planes of precast slabs, amounting to about 50-60 mm.

Frameworks of the U-shaped profile articulate the solidification of the concrete body, ensuring its operability under the influence of various loads, and make it possible to cover the holes 30 in the monolithic part with the entire width of the gap between the plates 2.

The disadvantages of the known technical solution are: low material consumption due to the large diameter of the reinforcement in the order of 15-20 mm, due to the need to obtain sufficiently rigid limbs of the U-shaped cages, as well as insufficient manufacturability of subsequent layers on the floor due to the presence of projections above the slabs, complicating the implementation of waterproofing, thermal insulation and sound insulation.

The purpose of the shadow image is to reduce material consumption and improve the manufacturability of manufacturing the ceiling.

The goal is achieved by the fact that in the ceiling, which includes prefabricated reinforced concrete slabs, which have nests on adjacent faces and monolithic sections, each of which is reinforced with a frame with U-shaped elements with limbs at the ends, each monolithic section is provided with an additional reinforcement frame consisting of from transverse rods, bent in an arc with a convexity upwards and installed by the ends in the sockets, and longitudinal rods, on which U-shaped elements are hung, with the bends of the U-shaped elements made in the form of hooks.

Additional ladder type frames, the transverse rods of which are bent in an arc with convexity upward and with their ends resting in the sockets, are a rather rigid arched structure that allows, with relatively small reinforcement diameters, to hang on the longitudinal rods of the U-shaped different hooks of the frames within the height side faces of the slabs and perceive the temporary load arising during the laying of concrete, while ensuring fixation of the U-shaped frames,

 When working on the load and impact, including vibration, this solution ensures the solidity of the site even if their manufacture had some defects, such as a shell. U-shaped frames hung on the longitudinal rods of ladders do not run out beyond the front edges of the slabs, this reduces the consumption of solid concrete and improves the manufacturability of subsequent layers of overlap - waterproofing, insulation and sound insulation.

FIG. 1 shows the section of the proposed overlap, section; Fig. 2 is the same in a perspective view, with one of the adjacent slabs and solid concrete not conventionally shown.

The overlap includes precast concrete slabs 1 having

adjacent lateral faces x 2 sockets 3. Plates 1 are arranged with a gap whose width exceeds the height of the lateral faces 2.

Gap on individual extended. the areas are filled with monolithic concrete 4, spatial reinforcement cages of the U-shaped profile 5 with limbs at the ends in the form of hooks 6 and reinforcement cages 7 of the ladder type, transverse rods 8 of which are bent in an arc convexly upward and with their ends are supported on the ledges sockets 3. The hooks 6 are hung on the longitudinal rods 9 of the ladder 7, with the thickness

5 monolithic concrete 4 less than the height of the faces 2. On the top of the concrete 4 flush with the upper planes of the plates 1 there is a layer of mortar 10, in the thickness of which pipes 11 are placed.

0 cats.

The efficiency of the ladder 7 frame in the process of laying and compacting the concrete 4 is provided

5 by the stiffness of its arched structure, the rigidity and strength of the cruciform welded joints of its longitudinal and transverse rods, as well as such laying technology, at which concrete is fed in separate portions along the axis of the gap between the plates 1, mainly between the transverse rods of the ladder 7. Partial weight concrete 4 through the hooks of the U-shaped frame 5 is transmitted to the longitudinal rods of the ladder 7, and through the latter to the arcuately curved transverse, in which a compressive force occurs, due to

What are the ends of the transverse rods of the ladder abutting the ledges of the nests 3 on the lateral edges of the x.2 plates 1.

The operability of the monolithic part of the slab during operation is ensured by the rigidity of the concrete body 4, reinforced along the cross-sectional contour by the U-shaped frame 5 and frame 7, as well as the possibility of transferring significant loads to the plates 1 through the ends of the transverse rods of the ladder 7.

Thus, the proposed technical solution of the overlap reduces the consumption of materials due to

5 reduce the volume of solid concrete and the diameters of reinforcement, as well as improve the manufacturability of the production of layers of overlap, located above the planes of precast slabs, for example

0 waterproofing, soundproofing, by eliminating the ledge. The overlap also allows a groove to be made, in a monolithic part, over the entire width of the gap between the prefabricated slabs dp rlz5 of the communications space in it.

Claims (2)

Claim Overlap, including prefabricated reinforced concrete slabs having nests on adjacent faces, and monolithic sections, each of which is reinforced with a frame with U-shaped elements with bends at the ends, characterized in that, in order to reduce the material consumption and increase the manufacturability of the overlap, each monolithic section equipped with an additional reinforcing cage, consisting of transverse rods, bent in an arc convex up and installed with the ends in the sockets, and longitudinal rods on which U-shaped elements are hung and bends P-about different elements made in the form of hooks., 5 Sources of information taken into account in the examination 1. The details of the overlap of public buildings developed by TsNIIEP educational institutions. Ser. 2.240-1, issue 1. 10 i., 1969, p. 87. 2. Mounting units and parts developed by TsNIIEP of commercial buildings and tourist complexes. Ser. II-04-10, no. 7, M., 15 .1974, l / 15.