RU2193636C2 - Prefabricated reinforced-concrete ceiling - Google Patents

Abstract

FIELD: construction engineering; applicable in erection of multistory buildings, for instance, frameless buildings. SUBSTANCE: prefabricated reinforced-concrete ceiling is formed of two panels with lower surface reinforcement made in the form of flat steel sheet. Side adjoining faces of panels have broken surfaces. Anchor devices are welded to steel sheet in corners of panels joining. Surface reinforcement has locking device in the form of standing seam in place of panels joining over entire length of joining. EFFECT: increased quality of ceiling and reduced consumption of reinforcement. 4 dwg

Description

 The invention relates to the field of construction and can be used in the construction of multi-storey buildings, for example, buildings with a frameless structural scheme.

 Known overlapping of flat panels of coatings, based on equidistant transverse and longitudinal walls (for example, large-panel residential buildings of the 111-76 series). From the conditions of transportation, the width of the panel should be no more than 4 m. Therefore, if necessary, overlap spaces with a nominal size of 6 • 6 m use two prestressed overlap panels, supported on three sides.

 The reasons that impede the achievement of the specified technical result when using the known device include the fact that with such a design scheme, a junction between the panels appears on the ceiling of the room. Due to the difference in the degree of prestressing of the reinforcement and in the strength of the concrete panels (within tolerances), various bending of the panels is formed and the joint on the ceiling is obtained with a height difference. To align the ceiling surface, there is a need for plastering.

 The closest device of the same purpose to the claimed invention in terms of features is an orthotropic plate including spatial reinforcement, consisting of a flat bottom sheet and a cellular top with curly cuts and bends in the form of stiffeners connected to the lower sheet, characterized in that the cutouts of each cell are made Z-shaped with the formation of mirror-mounted stiffeners, while the stiffeners of adjacent cells are arranged mutually perpendicular (see SU 1196462 A, 12/07/1985, E 04 B 5/40).

 The reasons that impede the achievement of the specified technical result when using the known device include the fact that the known device uses non-tensile surface reinforcement, which leads to a decrease in the effectiveness of surface reinforcement, lower bearing capacity compared to overlapping with prestressed surface reinforcement.

 The technical result is an increase in the quality of the overlap and a decrease in the consumption of reinforcement.

 The specified technical result is achieved by the fact that the known prefabricated reinforced concrete floor is formed of two panels with a lower surface reinforcement made in the form of a flat steel sheet. The lateral faces of the panels adjoining have broken surfaces, the surface reinforcement in the place where the panels adjoin along the entire adjoining length is equipped with a locking device in the form of a standing fold, and at the corners of the panels adjoining the steel sheet, anchor devices are welded. From the side opposite the adjacency of the panels, the steel sheet is provided with longitudinal anchors.

The invention is illustrated by graphic materials, which depict:
figure 1 is a plan of a precast concrete element;
figure 2 is a transverse section of the overlap (section aa in figure 1);
figure 3 - pairing plates in the initial stage of the enlargement assembly;
figure 4 - pairing plates in the design working position.

 Precast concrete flooring is formed of two panels 1 with surface reinforcement in the form of a flat steel sheet 2, equipped with longitudinal anchors 3, which are a metal corner with shorts welded to it from the reinforcement of the periodic profile. The number of the corner, the diameter of the reinforcement of shortys and their number are determined by calculation depending on the bearing capacity of the floor slab and the magnitude of the prestress in the surface reinforcement.

 In the four corners of the panels 1, along the line of their abutment to each other, angular anchor devices 4 are located, which are a steel plate with 2 rods of a periodic profile welded to it and to the lower surface reinforcement. The surface reinforcement at the junction of the panels is equipped with a locking device in the form of a standing fold 5, which provides reliable engagement of the panels with each other when creating prestressing in the surface reinforcement and the joint operation of the panels. In this case, the lateral faces of the panels adjoining have broken surfaces, which ensure the creation of prestressing in the surface reinforcement during the enlargement assembly of the floor.

 Make a single panel overlap as follows.

 At the enterprise, a flat steel sheet 2 of surface reinforcement with longitudinal anchors 3 and anchor devices 4 and equipped with a corresponding fold element 5 is laid in the formwork (form) and then the concrete mixture is laid according to traditional technology.

 The assembly of two panels at a construction site is as follows.

 Two adjacent panels 1 are installed on the assembly stand at an angle providing adhesion of the rebate elements 5 (FIG. 3). Applying a vertical load to the joint of the panels, they are rotated (t. A in FIG. 3) until the upper sections of the broken surface adjoin. In this case, due to deformation in the flat steel sheet of the surface reinforcement, prestressing appears, the value of which will depend on the angles of the broken surfaces of the panels. Anchor devices 4 are connected by plates 6 (figure 4) using electric welding. In the cavity formed by turning the panels, a solution is injected on quick-hardening cement. After gaining sufficient strength with the solution, the enlarged panels can be stored or mounted.

Claims (1)

 Precast concrete slab formed of two panels with surface reinforcement made in the form of a smooth steel sheet, characterized in that the side edges of the abutment have broken surfaces, the surface reinforcement at the junction of the panels is equipped with a locking device in the form of a standing fold, and in the corners of the junction of the panels to anchor devices are welded to the steel place, while from the side opposite to the adjoining panels, the steel sheet is provided with longitudinal anchors.

Images