RU140555U1 - COMBINED MONOLITHIC REINFORCED CONCRETE COVERING - Google Patents

Abstract

Precast monolithic reinforced concrete floors, including multi-hollow slabs, longitudinal and transverse crossbars supported on columns and consisting of a lower prefabricated part and an upper monolithic part equipped with upper reinforcement installed in the supporting sections or along the length of the monolithic part of the crossbars, multi-hollow slabs are mounted on the lower prefabricated parts of the longitudinal crossbars and are monolithic with the upper monolithic part of the crossbars containing monolithic reinforced dowels formed in the voids of the plates, characterized in that the precast the concrete floor is reinforced with prestressing high-strength reinforcement, passed along the longitudinal and transverse crossbars through the entire overlapping disk, while the prefabricated parts of the longitudinal and transverse crossbars are equipped with channels for passing the specified reinforcement, and the columns have openings corresponding to the channels located below the concrete-free zone through which the high-tensile prestressed reinforcement was omitted, while the bottom of the prefabricated part of the transverse crossbar is located at the same level with the bottom of the hollow plates.

Description

The utility model relates to construction and can be used in the construction of civil buildings with precast-monolithic beam frame.

It is known prefabricated-monolithic overlapping of the frame building, in which the columns have a through opening provided with a transverse ridge at the bottom, made integral with the body of the column. Hollow core slabs are joined along the sides by seams of cast concrete. Between the ends of multi-hollow slabs of adjacent spans, hidden monolithic crossbars of continuous cross-section were made with broadening at the columns and with through tensioned reinforcement passed through the entire length of the crossbars, rigid inserts were placed across which were fixed by the ends in the seams between the plates or in the voids at the ends of the plates. Hidden crossbars made of prefabricated hollow elements are placed perpendicular to the monolithic crossbar along the axis of the columns, and local non-tensioning reinforcement is placed in the monolithic joints of the columns in the zones of negative moments (RF patent No. 2020210 RU, publication date 01.16.1992, publication date 09/30/1994, authors Wigdorchik R .I., Et al., RU).

The disadvantages of the known analogue are the high labor costs in the manufacture of flooring due to the need for a formwork device for a monolithic crossbar, a small bearing capacity of the keyway connection of a hollow core plate and a monolithic crossbar.

As a prototype, the construction of a precast-monolithic slab, made according to the known technology of erecting a precast-monolithic frame with monolithic joints of columns with precast-monolithic crossbars, in which the lower part is made of the precast and the upper part of the crossbar is monolithic to the lower part with the monolithic of supporting and supporting sections, is adopted. mounted plates, while in the voids of the plates supported on the crossbar, the protrusions of the crossbar are formed, reinforced with frames and / or individual rods, pairwise connecting with each other and with ri opposite overlapping plates, in the upper monolithic part of the crossbars there is an upper reinforcement in the form of bar elements forming a continuous structure in two directions, along the plates, in the direction of the span of the plates, and along the crossbars, in the direction of the spans of the crossbars on which the plates are supported, while the lower parts of the crossbars can be used with voids corresponding to the voids of the plates (RF patent No. 2198270 RU, priority date 09/05/2001, publication date 02/10/2003, author Fedoseev A.V., RU, prototype).

The disadvantages of the prototype are the high labor costs during installation due to the need to install a large number of mounting supports, the need to set the required strength of monolithic concrete for the installation of the next floor and a large number of welding work at the construction site, in addition, the above overlap is not able to resist progressive collapse due to intermittent lower reinforcement in the area of the column.

The objective of the utility model is to increase manufacturability, reduce labor costs and the cost of the device precast-monolithic overlap, as well as increase its resistance to progressive collapse.

To solve this problem, precast-monolithic reinforced concrete floors include multi-hollow slabs, longitudinal and transverse crossbars supported on columns and consisting of a lower prefabricated part and an upper monolithic part equipped with upper reinforcement installed in the supporting sections or along the length of the monolithic part of the crossbars, multi-hollow slabs are mounted on the lower prefabricated part of the longitudinal crossbars and are monochromatic with the upper monolithic part of the crossbars containing monolithic reinforced dowels formed in the voids of the slabs. According to a utility model, precast-monolithic reinforced concrete floors are reinforced with prestressed high-strength reinforcement, passed along the longitudinal and transverse crossbars through the entire overlapping disk, while the prefabricated parts of longitudinal and transverse crossbars are equipped with channels for passing the specified reinforcement, and the columns have openings corresponding to the channels located below concrete-free zones through which high-tensile tensile reinforcement is passed, while the bottom of the prefabricated part of the transverse crossbar is located at the same level as bottom of hollow slabs.

In FIG. 1 schematically shows a fragment of precast-monolithic reinforced concrete floors, top view; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a section BB in FIG. one; in FIG. 4 - a fragment of the column in place of the device overlap.

Precast monolithic reinforced concrete slab contains multi-hollow slabs 1, based on longitudinal crossbars 2, consisting of prefabricated 3 parts and monolithic 4 parts, including monolithic reinforced keys 5.

6 hollow slabs located in the voids 6. The transverse bolts 7 also consist of a prefabricated part 8 and a monolithic part 9. In the monolithic parts 4, 9 of the longitudinal 2 and transverse 7 bolts there is an upper reinforcement (not shown conditionally), which can be installed either in zone above the column 10, or located along the entire length of the monolithic parts 4, 9. To increase manufacturability, reduce labor costs and the cost of the device prefabricated-monolithic overlap, as well as increase its resistance to progressive collapse, prefabricated parts 3, 8 about ol 2 and cross girders 7 are provided with channels 11 for the passage of high-strength reinforcement 12, tensioned to a certain amount of stress after installation of prefabricated parts 3, 8 at the design position. At the same time, the bottom of the assembly part 8 of the transverse crossbar 7 is located at the same level with the bottom of the hollow plates 1. and in the column 10 holes are made corresponding to the channels 11 located below the concrete-free section 13 with exposed reinforcement 14, intended for the device of the upper reinforcement passing through column 10.

The manufacture of precast-monolithic reinforced concrete floors is carried out in the following order: mounting tables are mounted on the columns, on which the prefabricated parts 3, 8 of the crossbars are mounted, after which high-strength reinforcement 12 is placed through the channels 11 of the prefabricated parts of the crossbars and located in the columns, which is located at two levels , stretched to a certain value of stress and fixed. Further, multi-hollow slabs 1 are laid on the prefabricated parts 3 of the longitudinal crossbars 2, the upper reinforcement is installed, and the monolithic parts of the crossbars are poured.

Thus, the inventive precast-monolithic reinforced concrete slab has improved manufacturability, reduced labor costs and the cost of a precast-monolithic slab, and also has increased resistance to progressive collapse due to the fact that the prestressed high-strength reinforcement passes through the entire overlap disk, including prefabricated parts of the crossbars and columns.

Claims (1)

Precast monolithic reinforced concrete floors, including multi-hollow slabs, longitudinal and transverse crossbars supported on columns and consisting of a lower prefabricated part and an upper monolithic part equipped with upper reinforcement installed in the supporting sections or along the length of the monolithic part of the crossbars, multi-hollow slabs are mounted on the lower prefabricated parts of the longitudinal crossbars and are monolithic with the upper monolithic part of the crossbars containing monolithic reinforced dowels formed in the voids of the plates, characterized in that the precast the concrete floor is reinforced with prestressing high-strength reinforcement, passed along the longitudinal and transverse crossbars through the entire overlapping disk, while the prefabricated parts of the longitudinal and transverse crossbars are equipped with channels for passing the specified reinforcement, and the columns have openings corresponding to the channels located below the concrete-free zone through which the high-tensile prestressed reinforcement was missing, while the bottom of the prefabricated part of the transverse crossbar is located at the same level with the bottom of the hollow plates.

Images