RU594U1 - Bezelless building frame - Google Patents

Abstract

1. Bezelless building frame containing prefabricated columns and modular patellar and intercolumn flat floor slabs, provided with shelves on the ribs and monolithic at the joints with each other, characterized in that the floor slabs are made of one- and two-module, equipped with reinforcing loop outlets emerging from ribs above the shelves for a length not exceeding the width of the shelf, and when mounting overlapping loop outlets of an adjacent plate, vertical vertically passed through overlapped loop outlets and in the same plane and rendered monolithic in the joint horizontal bars, and joint column adjustment is located in the knee-level slabs and hardwired in place bearing slab to the column in a single uzel.2. The frame according to claim 1, characterized in that the single-module floor slabs are square with a side length equal to half the distance between adjacent columns, and the two-module slabs are rectangular with a larger side length equal to the distance between adjacent columns.

Description

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Bezelless frame KUB-2.5

The utility model relates to the field of construction and can be used for construction: residential, social and industrial buildings with freedom © layout of premises.

Known bezrigelnyzh frame of buildings, containing prefabricated columns and supported by floor slabs, docked with each other on the periphery. After the installation of the ceiling, it is monolithic with a layer of concrete on its entire surface. The columns in height are joined to each other in a plane located at some distance above the floor surface / 1 /. In the described frame, the floor slabs are made with capitals, i.e. the ceiling surface is lower than the caB: the first room has protrusions, and the column joint in height in the described construction requires electric welding bathtubs, which in argiHiggrgg construction conditions is associated with high laboriousness.

The well-known bezkrelnyzh frame of the building is known, containing supercolumn, intercolumn and middle floor slabs resting on each other along the ribs. In order to support the column column on the column, a cantilever projecting collar / 2 / is formed on the latter. In this design, the columns in height are as follows: e: e are joined outside the joint from the floor slabs, which causes increased demands on the quality of the joint welding, especially when tensile forces arise in the joint, in addition, the described structural frame requires a large range of floor slabs and has a significant the length of the joints.

/ E 04 at 1/02 .E 04 at 5/43

pedep slabs with a shelf located in the lower part of the slab slab; when joining slabs with a small block of shelves: ash1 and a plate edge, a pocket is formed in which, when mounting the pieces, a volumetric reinforcing cage is laid with its subsequent closure / 3 /. Such a solution is justified if the PI slab slab is relatively large, but the joint load is relatively low, however, in the version of the non-flange design of the slab at the shelf location, it is necessary to release the slab reinforcement with a relatively small thickness of the slab itself, and the cantilever shelf layout, designed to accommodate the volume reinforcing panel frame, causes difficulties in the manufacture, transportation of the plate and its installation in the design polo: 1seniya.

The closest analogue adopted for the prototype is the unbroken frame of the building, made in the form of columns located at a certain step, and floor slabs: over-column, inter-column and medium. The column columns have a hole in the center for mounting onto the column; the remaining plates in one direction are sanded dr} T on due to the special-shaped edge of the plate, and in the other direction due to the concreted joint / 4 /. The disadvantage of this frame is the large range of applied floor panels, uneven joints of panels in the longitudinal and transverse direction of the floor, the lack of a solution for the junction of columns along the height of the building.

The objective of this utility model is to simplify the installation process of the frame while reducing the nomenclature of floor slabs.

The essence of the utility model is that the floor slabs are single- and two-module, and the column joint in height is spread out at the level of the over-column floor slab and is monolithic in the place where the floor slab rests on the column in one xyx: green. In addition, the floor slabs are equipped with shelves located from the bottom of their ribs to the entire ribs and, when mounting the adjacent slab, which are hinged in the rib, as well as hinges), the valves were released that overlap the looped outlets of the adjacent dance through the loop through which

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- 1Generated alternate vertirtals in one plane and horizontal bars at the junction were skipped.

A comparative analysis of the known and proposed bezelless frames shows that the proposed one is distinguished by the use of one- and two-module floor slabs, the height of the junction of the columns and the combination of this junction and the junction of the column plate with the column in a single unit. This allows you to drastically reduce the range of floor panels used, to eliminate due to the increase it is insignificant: the ability of the column to join the need for electric tubing in height, to simplify the process of joining the columns with and with the column plate, making a single technological operation. In addition, the use of reinforcement of the junction of funny plates with the help of looped outlets passing through overlapping each other is arranged vertically one above the other 1 and at the horizontal joint LVL and rods it is possible to reduce the fit, the gap between the joints is flat, and this, in turn, makes it possible:; a shelf in the lower part of the edge of the floor slab, which closes the bottom with MOHTas: e the gap between the slabs is monolithic with concrete. The single-module floor slabs are square with a side length equal to half the distance between adjacent columns, and the two-module P. LITA - rectangular with a longer side, is equal to the distance between adjacent columns, which leads to a reduction in the range of straight floor slabs and a reduction in length for the same joints. This allows us to conclude that there is novelty in the proposed design.

Comparison of the proposed frame with other: well-known technical solutions for a similar purpose shows that the claimed frame simplifies the installation process in summer: eliminates the bathtub: electric welding of the fittings of the joined columns, the formation of the junction of the columns with the poppet plate is simplified, the gap between the slabs mt decreases and, accordingly, easier zag, reunification of the joint. This whole

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- the effect can be achieved as a result in the technique of reception, moreover, the claimed convention of the frame exceeds the known level of technology.

The utility model is illustrated by the drawings, which depict:

- figure 1 is a General view of the bezelless frame in plan;

- figure 2 - MOHTajK over-column slab;

- on fig.Z - the joint of two adjacent pieces of overlap with a loop outlet and reinforcement;

- figure 4 - bearing adjacent, floor slabs on top of each other;

- figure 5 - the junction of the pzh1ty overlap on the column and the junction of two

parts, columns in height.

Bezelless, the frame consists of columns 1, 2, on which supracolumn slabs 3 are supported directly. Smallcolumn slabs 4 are supported on these supracolumn slabs during the installation of the ceiling 4. Both types of slabs are flat, without ribs or any bulges in the bearing area on the columns or Each other. The columns are made of constant cross-section in height, devoid of any capitals or xoivi TOB in the zone of grinding on them floor slabs. However, if according to structural or architectural and planning considerations it becomes necessary to make ribbed plates / not shown in the drawings /, then this frame allows for such a solution.

In the places of the montax of the knee plates 3, the longitudinal reinforcement 5 is exposed in the shaft, and the hole 6 in the column plate is equipped with steel 7 mounted in it during the manufacture of the shell. 3 in the case when the junction of the 8th column in height is organized at the level of the column column, loopback of the reinforcement 9 is made from the upper part of the column 2, and reinforcing bars 10 are made from the external part of the column 1. When combining the column column with a column and column elements, each with a dart their joint is monolithic in concrete 11.

When docking with a neighboring:. With the cover plate, the edge of this adjacent plate is devoid of such a shelf. In the edges of the floor slabs, reinforcing loop outlets 14 are made, the length of which does not exceed the width of the shelf. When MOHTaiice meldu loopbyuzhchashchash skipped horizontal eraser} books 15, located vertically in the same plane and monolithic concrete 16. In addition, the edges of the plates are equipped with a straight-17 and 18 reverse tables, which, when the plates are mounted, are supported on each other and are monolithic in concrete . The length of the direct table is equal to the width of the shelf 13,

When mounting the floor slabs, mounting racks 19 are used. The yellows are made in the form of one-module 20 and two-module 21 panels, One-module plates are made square with side length equal to half the distance between adjacent columns, and two | single-module plates are made of Ioygul vSh with length the greater side equal to the distance me: ed adjacent column 1.1I, and less than half this distance,

Installation of the frame is carried out in the following order: First, columns 1 are set to the design position, then column columns 3 are mounted on them, after which two-module column columns 4 are installed, for better perception by columns of mounting loads, the first one-module column columns are installed, and two-module modules are already supported on it . When bearing 1 (ет the plates are supported in a one-sided manner or when loads are applied to them one-sidedly, which is usually the case on the extreme axes of the building), mounting racks 19, Gaskets are used only after the ceiling of the next floor has been mounted, covered with concrete 11 and 16 and concrete this one gained at least 70 design strength.

Installation of the column columns 3 on the columns 1 and 2 is carried out using the mounting conduit 1: torus 22, pre-installed in the hole 23 at the bottom of the floor slab 3, The column column 3 mounted on the design mark is attached to the column 1 and 2 with

by welding the shell 7 of the plate with the working reinforcement 5, 9 and 10 of the columns 1 and 2, using steel intermediaries / not shown in the drawings /. Even in the installation level of the column plate 3, the upper 2 and lower 1 columns are docked, then the loop reinforcement 9 of the upper column 2 is welded to the rod 10 of the lower column 1 only if the joint is designed to absorb tensile forces. Then the joint assembly is monolithic with concrete 11 with its thorough compaction.

The installation of mezholonny 4 plates in the design position is made on the spinning 17 and 18 reverse tables. When assembling plates 3 and 4, the reinforcing loop outlets 14 protruding from their ribs 14 overlap each other, forming a closed oval ring 23 through the lumen, through which horizontal columns 15 are placed, one above the other in the same vertical 1 plane. Then the joint is monolithic with concrete 16. During the installation of plates 3 and 4, the shelf 13 protruding in the lower part of the ribs 12 overlaps the gap between the slab, forming a channel filled with concrete 16.

In low-rise buildings with a height of up to 4 floors, the cross section of the reinforced concrete column 1 can be correlated as 1: 2, so the column p7 can be hidden in the thickness of the wall without protruding from its plane.

Information sources

1.Japosha, application 45-11268 of 1970.

2.SSSR, A.S. 823519 from 1981 MJ E 04 V V18

3.SSSR, A.S. 1738945 from 1992 MGi E04 B 1/02

4.1: DR, eq. patent 116281 о; Вг гЖИ E 04 В 5/43 - protot

Applicant, General

Director / Dy I A. V. Martynyuk

Claims (2)

1. Bezelless building frame containing prefabricated columns and modular patellar and intercolumn flat floor slabs, provided with shelves on the ribs and monolithic at the joints with each other, characterized in that the floor slabs are made of one- and two-module, equipped with reinforcing loop outlets emerging from ribs above the shelves for a length not exceeding the width of the shelf, and when mounting overlapping loop outlets of an adjacent plate, vertical vertically passed through overlapped loop outlets and in the same plane and rendered monolithic in the joint horizontal bars, and joint column adjustment is located in the knee-level slabs and hardwired in place on the column supporting the slab in a single unit. 2. The frame according to claim 1, characterized in that the single-module floor slabs are square with a side length equal to half the distance between adjacent columns, and the two-module slabs are rectangular with a larger side length equal to the distance between adjacent columns.