RU76050U1 - NON-BEARING REINFORCED CONCRETE MODULAR MONOLITHIC FRAME OF A MULTI-STOREY BUILDING - Google Patents

Abstract

The technical solution relates to the field of construction of multi-storey reinforced concrete - up to 25 floors high - industrial prefabricated monolithic bezelless frame buildings, including in seismic areas. The technical result consists in combining prefabricated reinforced concrete elements into a frame, namely, pylons between them in height and floor disks with pylons not through a sawed-off floor panel, but by means of a contact-loop assembly, while achieving: reduction of the main types of prefabricated reinforced concrete elements forming the frame (without sawn floor panels), simplifying the installation of floor panels on pylons while improving reliability and increasing the bearing capacity of the unit combining precast concrete elements in the frame, while the possibilities of space-planning solutions of buildings are preserved, the load is transferred from the upstream pylons to the downstream pylons along the entire horizontal surface of the pylon, without exception, the sections occupied by the hidden beams of the sawn plate, the forces are transferred to the overlap disk in the area above the pylon not through the sections of the hidden beams of the filed panel, but on the entire contact surface of the floor panels with the pylon, with the formation of a rigid frame assembly in the mates of the discs Covering with pylons over the entire contact surface of the floor panels with the pylon, there is also a reduction in labor and material costs for the manufacture and installation of prefabricated reinforced concrete frame elements, including by eliminating the most difficult element in the manufacture and installation of the sawn floor slab. This is achieved by the fact that the bezelless reinforced concrete precast-monolithic frame of a multi-storey building formed by floor disks and vertical load-bearing elements - pylons installed with the possibility of perceiving the entire complex of vertical and horizontal

loads and located in the plan arbitrarily relative to each other in accordance with the bearing capacity and planning structure of the building, each of which is made in the form of a flat reinforced concrete wall floor cut, rectangular in cross-sectional plan, with a thickness equal to the thickness of the interroom or interior walls, on the lower and right horizontal faces which are made of reinforcing releases, for combining the pylons with each other over the entire height of the building, with the possibility of connection in the mounting stage for welding, and two centering vertically arranged butt elements, on the bottom face in the form of concrete truncated cones, and on the top in the form of metal pipe segments monopolized when forming the pylon, through which the vertical load from the upper pylon is transferred to the lower one during installation and the pylons are aligned to the entire height of the building, and the disks floors are made of the same type of reinforced concrete, preferably flat, subdivided depending on the location in the disk of the floor relative to the pylons into pylon, supporting-row and row floor panels of various, by a multiple of 300 mm, length and / or width, with loopback reinforcing outlets of various bearing capacities and trapezoidal depressions along the perimeter on the end surfaces with a step corresponding to a module of 300 mm, and two bevels on two opposite ends supporting sections-protrusions connected to each other in the overlapping disk by monolithic concrete seams between them, the width limited by the ends of the overlapping panels, at the level of the overlapping disks formed by reinforcing loop outlets at the ends of the panel floors and working reinforcement of the seams located in the inter-loop space, and the pylons are joined together in height and with the floor disks by concrete montage of the contact-loop assembly located in the gap between the upper and lower horizontal faces of the pylons at the level of the floor disks and formed butt elements on the lower and upper horizontal faces of the pylon, reinforcing outlets

on them, with reinforcing loop outlets at the ends of the floor panels adjacent to the node, trapezoidal depressions on them and supporting sections-protrusions at the ends of these panels, for supporting the floor panels on the pylons, while the vertical and horizontal loads of the building were transferred from the upstream pylon to the downstream pylon the entire horizontal surface of the pylons joined in the assembly and the operation of the floor disks according to a continuous pattern with the formation of rigid frame assemblies in the mates of the pylons with the floor disks, etc. than the possibility of connecting the extreme reinforcing outlets on the horizontal faces of the pylons in the assembly stage at the welding stage makes it possible to perceive the horizontal wind and seismic loads as well, and the possibility of connecting the overlapping panels of different load-bearing capacities in the node of the loop outlets due to anchoring or welding, perceiving by the knot various reference points of the disk overlap. 1 n.p. f-ly

Description

The proposed technical solution relates to the field of multi-storey reinforced concrete construction — up to 25 floors high — of industrial bezelless precast and monolithic frame buildings, including in seismic areas.

The closest known to the proposed technical solution is the design of a bezelless prefabricated monolithic frame containing a floor panel and a pylon formed by vertical load-bearing elements - pylons, the thickness of which is equal to the thickness of the interroom partitions, installed with the possibility of perceiving the whole complex of vertical and horizontal loads and located in plan with a free step that is a multiple of 300 mm, in at least one of the mutually orthogonal directions, in accordance with the carrier spacing The structure and structure of the building, and having loop outlets at the ends of the same type of flat reinforced concrete floor panels, forming floor disks floor-joining pylons, the combination of floor disks with pylons in the frame is carried out through sawn panels, each of which has trapezoidal openings for placing it above the pylon in the cross-section of the profile for continuous passage through them of pylon fittings and hidden beams for the formation of continuous reinforcement of the overlapping disk without a pylon (RU 28153 U1).

The technical result of the proposed solution is to create a bezelless reinforced concrete precast-monolithic frame by combining precast reinforced concrete elements, namely, pylons between each other in height and floor disks with pylons (not through a sawed-off floor panel, as in the prototype) using the developed contact-loop assembly. This achieves: reduction of the main types of prefabricated reinforced concrete elements forming the frame (without sawn floor panels), simplifying the installation of floor panels on pylons while improving reliability and increasing the bearing capacity of the unit uniting precast concrete elements in the frame, moreover:

- the possibilities of space-planning decisions of buildings remain;

- load transfer from the upstream pylons to the downstream pylons takes place along the entire horizontal surface of the pylon, without exception, the sections occupied in the node by the hidden beams of the sawn board;

- the transfer of forces in the overlap disk in the area above the pylon does not occur through the sections of the hidden beams of the sawn overlap panel, but on the entire contact surface of the overlap panels with the pylon;

- a rigid frame assembly for interfacing the floor disks with the pylons is formed over the entire contact surface of the floor disks with the pylon;

- there is also a reduction in labor and material costs for the manufacture and installation of prefabricated reinforced concrete frame elements, including due to the exclusion of the most difficult element in the manufacture of installation - a sawn-down floor slab.

This is achieved by the fact that:

- Bezelless reinforced concrete precast-monolithic frame of a multi-storey building, formed by floor disks and vertical load-bearing elements - pylons, installed with the possibility of perceiving the whole complex of vertical and horizontal loads and arranged in a plan arbitrarily relative to each other in accordance with the bearing capacity and planning structure of the building, each of which is made in the form of a flat reinforced concrete wall floor cut, rectangular in cross-sectional plan, with a thickness equal to the thickness of the inter-quarters a partition or interior partition, on the lower and upper horizontal faces of which reinforcing releases are made, for combining the pylons with each other over the entire height of the building, with the possibility of joining in the mounting stage for welding, and two centering vertically located butt elements, on the lower face in the form of concrete truncated cones, and on the top in the form of metal pipe segments monopolized when forming the pylon, through which at the installation the vertical load from the upper pylon is transferred to the lower one and coax the span of the pylons to the entire height of the building, and the floor disks are made of the same type of reinforced concrete, preferably flat, subdivided depending on the location in the floor disk relative to the pylons into ordinary, supporting-row and inter-pylon, floor panels of a different multiple of 300 mm, length and / or widths, with loopback reinforcing outlets of various bearing capacities and trapezoidal depressions along the perimeter on the end surfaces with a step corresponding to a module of 300 mm, and on two opposite ends of the bevels and along a support-portion protrusion interconnected in overlapping disk rendered monolithic concrete joints therebetween, a width limited ends overlapping panels, a level of overlap of disks formed by reinforcing loop outlets at the ends of the panels overlap and working reinforcement seams situated

in the inter-loop space, and the pylons are joined together in height and with the floor disks by monolithic concrete of the contact-loop assembly located in the gap between the upper and lower horizontal faces of the pylons at the level of the floor disks and formed by the butt elements on the lower and upper horizontal faces of the pylon, reinforcing outlets on them, reinforcing loop outlets at the ends of the overlapping panels adjacent to the assembly, trapezoidal depressions on them and supporting sections upside down at the ends of these panels, to support the floor panels to the pylons, the vertical and horizontal loads of the building were transferred from the upstream pylon to the pylons located on the entire horizontal surface of the pylons joined in the node and the work of the overlapping disks in a continuous structure with the formation of rigid frame nodes in the pylon mates with floor disks, and the possibility of connecting in the node of the extreme reinforcing outlets on the horizontal faces of the pylons in the mounting stage on the welding makes it possible to accept the node as well as horizontal wind and seismic loads, and the possibility of connecting in the loopback outlet node of the floor panels of different load-bearing capacity due to anchoring or welding, to perceive the node as different supporting moments of the floor disk.

The drawings schematically depict:

- Figure 1 is a fragment of the floor plan (layout of the main load-bearing structures) in the bezelless reinforced concrete precast-monolithic frame of a multi-storey building with an arbitrary relative to each other arrangement of the main load-bearing elements - pylons.

- Figure 2 presents the panel overlap bezrigelnogo reinforced concrete precast-monolithic multi-storey frame;

- Figure 3 presents the pylon of the bezelless reinforced concrete precast-monolithic multi-storey frame;

- Figure 4 presents the contact-loop node.

- Figure 5 is a section through 1-1 in figure 4

- In Fig.6 is a section through 2-2 in Fig.4

- In Fig.7 is a section according to 3-3 in Fig.4

- On Fig - volumetric fragment of the frame

The frame is formed by flat prefabricated reinforced concrete vertical load-bearing elements - pylons 1, the thickness of which is equal to the thickness of the interroom partitions, located arbitrarily relative to each other in plan in accordance with the bearing capacity of the pylons, perceiving the whole complex of vertical and horizontal loads, floor-mounted combined precast monolithic floor disks of the same type flat reinforced concrete panels, subdivided depending on the location in the disk of the ceiling into ordinary 2, supporting-ordinary 2 "o and mezhpilonnye 2 "m". Pylons 1 - flat reinforced concrete piers of floor cutting, the thickness of which is equal to the thickness of the interroom partitions, preferably 200-300 mm, on the lower and upper faces of which are made two supporting butt centering elements: the lower 6 in the form of concrete truncated cones and the upper 7 in the form of vertically arranged monolithic when forming pylons of metal pipe segments, preferably with a diameter of at least half the thickness of the pylon, having a concrete cavity in the form of a truncated cone, intended for mounting pylons on top of each other, through which the vertical load from the top pylon is transferred to the bottom during installation. To unite the pylons 1 with each other over the entire height of the building, loopback reinforcing outlets 8 and extreme reinforcing outlets 9 located on the entire surface on the lower and upper faces of the pylons are designed; extreme reinforcement outlets are welded together at the installation. Mounting loops 10 are also located on the upper edge of the pylons. The pylons can be made in the form of a reinforced concrete panel with an opening. Panels of overlapping 2, 2 "about" and 2 "m"

made of the same type of flat reinforced concrete (expanded clay or heavy concrete, including polystyrene foam inserts), different, by a multiple of 300 mm, length and / or width. Loop reinforcing outlets 11 with a pitch of 300 mm of different bearing capacity depending on the forces in different places of the overlapping disk, as well as trapezoidal depressions 12 for creating keys in the joints of the monolithic overlapping disk, are located on the end surfaces of the overlapping panels along the contour. In addition, on two opposite ends of the panels, there are two supporting sections 13 for supporting the floor panels on the pylons and 4 (four) bevels 14 for welding the extreme outlets of the pylons with each other, concreting and monitoring the unit for combining the floor panels and pylons in the frame - contact loop knot. As a kind of floor panels there are 3 bay windows and balcony 4 floor panels.

The joining of the floor panels to each other in the disk is carried out by monolithing the seams 5 between the floor panels, preferably 190-220 mm wide, with the looped outlets of the floor panels located in them and the working reinforcement of the joints, which is calculated according to the installation.

The combination of prefabricated reinforced concrete elements in the frame, namely the pylons between them in height and the floor disks with the pylons in the frame is carried out by means of a contact-loop assembly, in which the maximum ease of mounting the overlapping panels 2 "m" on the pylons 1 through the supporting sections of the panels 13 is achieved, uniformity transfer of the vertical load from the floor panels to the pylon through the key-loop sections of the panels 11, 12, continuous transfer of the vertical load from the above pylons to the lower ones over the entire area Ilona through available over the entire surface of the horizontal faces of the pylons continuous loop reinforcement and form a rigid frame nodes pairings pylons with beams, over the entire surface

the contact of the floor panels with the pylon due to the key-loop ends of the pylons and the floor panels 8, 9, 11.

Thus, in the proposed technical solutions, instead of the traditional for industrial prefabricated and precast monolithic frames of columns and diaphragms in orthogonal axes with a constant step of the supporting structures in the building plan, pylons are used as vertical supporting elements, arbitrarily relative to each other in the building plan, in the thickness of the interroom partitions, which allowed them to be embedded in the planning structure of the floor, while the prefabricated reinforced concrete elements were combined into the frame by means of stroke-loop assembly having enhanced reliability and carrying capacity, including for use in seismic areas.

At the same time, the external contour, as a rule, is free from dull areas occupied by vertical structures, which will make it possible to use almost any architectural and structural options for lightweight external walls, performing these works directly from the ceiling.

Claims (1)

Bezelless reinforced concrete precast-monolithic frame of a multi-storey building, formed by floor disks and vertical load-bearing elements - pylons, installed with the ability to perceive the whole complex of vertical and horizontal loads and arranged in a plan arbitrarily relative to each other in accordance with the bearing capacity and planning structure of the building, each of which made in the form of a flat reinforced concrete wall floor cut rectangular in terms of section, with a thickness equal to the thickness of the interquartile of a partition or interior partition, on the lower and upper horizontal faces of which reinforcing outlets are made to unite the pylons with each other over the entire height of the building and two centering vertically located butt elements, on the lower side in the form of concrete truncated cones, and on the top in the form of monolithic during molding pylon of metal pipe sections, and the floor disks are made of the same type of reinforced concrete, preferably flat, subdivided depending on the location of the relative but pylons for inter-pylon, supporting-row and ordinary, floor panels of various, by a multiple of 300 mm, length and / or width, having loop reinforcing outlets of various bearing capacities and trapezoidal depressions along the perimeter on the end surfaces with a step corresponding to a module of 300 mm and on two opposite ends there are bevels and two supporting sections-protrusions connected to each other in the overlap disk by monolithic concrete with seams with a width limited by the ends of the overlap panels at the level of the overlap disks formed by the reinforcement loop outlets at the ends of the floor panels and the working reinforcement of the seams located in the inter-loop space, and the pylons are joined together in height and with the floor disks by means of concrete montage of the contact-loop assembly located in the gap between the upper and lower horizontal faces of the pylons in the level of the floor disks and formed by the butt elements on the lower and upper horizontal faces of the pylon, the reinforcing outlets on them, the extreme of which are interconnected on arch, reinforcing loop outlets at the ends adjacent to the node of the floor panels, trapezoidal depressions on them and supporting sections-protrusions on the ends of these panels to support the floor panels to the pylons, while the vertical and horizontal loads of the building were transferred from the upstream pylon to the downstream pylon the horizontal surface of the pylons joined in the assembly and the operation of the floor disks according to a continuous pattern with the formation of rigid frame assemblies in the mates of the pylons with the floor disks.