RU2710646C1 - Method of making monolith reinforced concrete plate - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely, to method of making monolith reinforced-concrete plate. Proposed method comprises installation of composite W-shaped shape on steel profiled sheeting to be shifted to waves of steel profiled sheeting to be lowered into steel corrugation corrugated thereon, bottom lengthwise, and in upper zone, top lengthwise reinforcement, and then monolithic concrete.

EFFECT: technical result is higher strength.

1 cl, 1 dwg

Description

The invention relates to construction and can be used in monolithic slabs of industrial and civil buildings.

Known methods for the manufacture of monolithic plates containing corrugated sheets including laying longitudinal reinforcement on corrugated boards with its fixation by transverse reinforcement and subsequent concreting [see The invention of the USSR No. 881236 EV04/36].

The prototype of the invention is a method of manufacturing a monolithic plate, including laying transverse saw-tooth reinforcement on corrugated board and longitudinal reinforcement on it along the corrugation of the flooring [see Patent for the invention of the Russian Federation No. 2661954 EV 5/36]. This method requires greater accuracy in the manufacture of long serrated reinforcing bars, and then laying the bottom longitudinal reinforcement and concreting, which leads to the complexity of manufacturing. The sharpness of the saw-tooth reinforcement does not allow laying of longitudinal reinforcement in the upper zone of the plate, which leads to a decrease in its load-bearing capacity, and for plates working according to the continuous structure, the inability to provide the required strength [see Recommendations for the design of monolithic reinforced concrete floors with profiled steel flooring, M., Stroyizdat. 1987. p. Fig. 2a and paragraph 3.9].

The invention is aimed at reducing the complexity of manufacturing and increasing the bearing capacity of monolithic single-span plates containing transverse, upper, lower longitudinal reinforcement and ensuring the strength of plates working in continuous form.

The goal is achieved by first laying on the steel deck with a wave of steel sheeting a composite transverse reinforcement of the sawtooth in the form of “W” with a variable pitch decreasing to the supports, and laying on it the longitudinal lower reinforcement (which “falls” into the corrugations of the steel deck and automatically fixes the vertical position of the transverse reinforcement), and then the upper longitudinal reinforcement is laid on the formed horn-shaped protrusions of the ends of the “W” -shaped transverse reinforcement, then the slab is concreted.

The method is illustrated in the drawing, where in FIG. 1 is a perspective view of a fragment of a monolithic slab.

A monolithic slab (Fig. 1) consists of corrugated board 1, transverse reinforcement of serrated form 2, working bottom 3, upper reinforcement 4 and filling 5 (for example, concrete).

The method is performed in the following sequence. The steel corrugated board 1 is first installed on the supports 6, then the transverse reinforcement 2 of the sawtooth "W" -shaped shape (Fig. 1), and on them in the grooves of the corrugated board lay the longitudinal lower reinforcement 3, which under its weight "falls" into the grooves of the plate 1 and fixes the position of the transverse reinforcement 2, forming horn-shaped protrusions in the upper zone, lay the upper reinforcement 4, after which the slab is monolithic, for example, with “concrete 5.

The method, in addition to simplifying the manufacture of the slab, the presence of longitudinal reinforcement in the upper zone increases the bearing capacity of the single-span steel concrete slab, and also reduces the effect of concrete shrinkage, and in multi-span slabs, the presence of the upper reinforcement provides the calculated bearing capacity.

The method, in comparison with the known solutions, provides a simplification of the manufacture of the slab, provides increased load-bearing capacity along the normal and inclined sections of the steel-concrete slab. It is most effective for the manufacture of monolithic slabs operating according to a continuous design.

Claims (2)

1. A method of manufacturing a monolithic steel-concrete slab, including laying on the corrugated board of longitudinal and transverse reinforcement of serrated form with a variable pitch and subsequent filling of the plate with monolithic concrete, characterized in that the composite transverse reinforcement of the serrated form in the form of “W” is laid on the corrugated board first, and then on it is placed in the gutters of the corrugated board and in the horn-shaped protrusions of the transverse reinforcement longitudinal reinforcement and monolithic slab concrete. 2. A method of manufacturing a monolithic plate according to claim 1, characterized in that the transverse reinforcement of the serrated form in the form of “W” of each of its steps is laid with a shift to the wave of steel corrugated board.

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