RU2549342C2 - Attachment assembly of columns and floor slab - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely to assemblies of support of floor slabs and covering from columns of frame buildings. A floor assembly includes an underlying column on which there installed by means of a connection element is a floor slab and an overlying column. The lower end of each of the columns has a possibility of being attached to the connection element, and the upper end has a possibility of installation on it of the connection element, with that, the floor slab is provided with a through opening having a possibility of being freely put on the connection element. The connection element consists of two parts of a cylindrical shape; the upper part has a possibility of being entered to the cavity of the underlying column. Columns include a stiff cylindrical cover having a possibility of being filled with bulk filler till the level providing its tight contact to the end face of the connection element arranged in the cavity of the cylindrical cover. The upper part of the connection element has a possibility of being attached to the floor slab.

EFFECT: decrease of material content of an assembly.

6 cl, 5 dwg

Description

The invention relates to the construction, and more particularly to the nodes of the support floor slabs and coatings on columns and racks, and can be used in frames of residential, public and industrial buildings.

Known is the junction of the column and the over-column floor slab, containing a prefabricated column and a prefabricated floor slab made with an opening in its lower part for passing the column with a shell rigidly attached around the perimeter of the hole to the plate working reinforcement and provided with additional rods located in the lower zone of the plate, connecting the plate working reinforcement with additional shell rods and attached to the column by connecting the last working reinforcement with the shell (see "Cube 2.5. Unified prefabricated system nolitnogo bezrigelnogo frame. "TSNIPI" Monolith ", M., 1990).

A disadvantage of the known site is the increased metal consumption and the complexity associated with a significant amount of electric welding and concrete work necessary to monologize the joint, the complexity of the installation of this design. As well as the need for input, operational and acceptance control.

As the closest analogue, a node for connecting the columns and the floor slab is adopted, comprising a lower column, a floor slab mounted on it, on which the upper column is placed, the lower end of each of the columns being able to be fastened to the connecting element of the underlying column, and the upper end is made with the possibility installing a connecting element on it, while the floor slab is made with the possibility of passing through it the connecting element of the lower column (see RF patent No. 123033, IPC E04B 1/38, public date tion 20.12.2012).

The disadvantage of the closest analogue is the increased complexity of its installation due to the need for devices in the lower parts of the columns of wells with subsequent monolithic (by injection) in them releases working reinforcement of the underlying columns.

The problem to which the invention is directed, is to develop an easy-to-install design of the connection unit, which allows to reduce the specific load on the columns, expand the scope, and also reduce material consumption.

The technical result achieved by solving the problem is expressed in reducing the specific load on the columns, as well as reducing the complexity and material consumption.

The problem is solved in that in the node connecting the columns and the floor slab containing the underlying column, on which, using the connecting element, the floor slab and the overlying column are installed, the lower end of each of the columns being able to be fastened to the connecting element, and the upper end made with the possibility of installing a connecting element on it, while the floor slab is equipped with a through hole made with the possibility of freely putting on the connecting element, connect the linen element contains two parts of a cylindrical shape, the upper of which has a diameter greater than the diameter of the lower part, made with the possibility of its entry into the cavity of the underlying column, while the columns contain a rigid cylindrical shell, made with the possibility of uniform and dense filling with bulk filler from solid particles, for example, sand, to a level that ensures its tight contact with the end face of the connecting element placed in the cavity of the cylindrical shell, in addition, the upper part of the joint The integral element is adapted to be bonded to the floor slab, for which purpose radial stiffeners are rigidly fixed on the lateral surface of the connecting element, the lower edges of which are rigidly fastened to the support plate, the upper plane of which is capable of supporting the floor slab on it. In addition, the upper part of the connecting element is made to be fastened to the lower end of the overlying column, for which the end surface of the upper part is made flat and equipped with anchor bolts, the lower part has a diameter that corresponds to the inner diameter of the cylindrical shell of the columns, fully prefabricated columns are used, lower the ends of which are provided with flange plates, the connecting element consists of a metal body, the inner cavity of which is filled with concrete.

A comparative analysis of the essential features of the proposed technical solution with the essential features of analogues indicates its compliance with the criterion of "novelty."

In this case, the distinguishing features of the claims solve the following functional tasks.

Signs "the connecting element contains two parts of a cylindrical shape, the upper of which has a diameter greater than the diameter of the lower part" allows you to increase the area of support of the overlying column.

The sign “the lower part, made with the possibility of its introduction into the cavity of the underlying column” and “the cylindrical shell is made with the possibility of uniform and dense filling with granular filler to a level that ensures its tight contact with the end face of the connecting element” provide a decrease in the specific load on the columns, in each of which relatively uniform stresses arise, as a result of which the structure can conditionally be considered centrally compressed. In addition, material consumption is reduced by reducing the wall thickness of the cylindrical shell.

The signs "columns contain a rigid cylindrical shell, made with the possibility of uniform and dense filling with a bulk filler of solid particles, such as sand" provide a joint and rational operation of a rigid cylindrical shell and bulk filler columns, reduce the complexity of production and eliminate uneven precipitation of bulk filler in columns in period of operation of the building.

Signs "the upper part of the connecting element is capable of being bonded to the floor slab, for which radial stiffeners are rigidly fixed on the lateral surface of the connecting element, the lower edges of which are rigidly fastened to the base plate, the upper plane of which is made to support the floor slab on it" provide rigidity node as a whole.

Figure 1 shows a vertical section of the finished node connecting the columns and floor slabs.

Figure 2 shows a plan view of the junction of the columns and the floor slab when freely putting on the floor slab on the connecting element.

Figure 3 shows a General view of the connecting element.

Figure 4 shows a General view of the column.

Figure 5 shows a diagram of the loading of the column.

The drawings show the underlying and overlying columns 1, floor slab 2, connecting element 3, through hole 4 of floor slab 2, rigid cylindrical shell 5 and bulk filler 6 columns 1, radial ribs 7, support plate 8 and anchor bolts 9 of connecting element 3 , flange plates 10 columns 1, reinforcement 11 slabs 2.

Columns 1 are made in the factory, where the rigid cylindrical shell 5 is uniformly filled with loose filler 6, its seal and the device in the upper part of the “wad” stopper preventing the loose filler 6 from spilling out during transportation of structures, and flange plates are attached to the lower part of the cylindrical shell 5 10.

Floor slab 2 can be made precast or monolithic.

The connecting element 3 is made in the form of a metal body, the inner cavity of which is filled with concrete, and contains two cylindrical parts, the upper of which has a diameter greater than the diameter of the lower part, and the end surface is even and equipped with anchor bolts 9, the diameter of the lower part corresponds to the inner diameter cylindrical shell 5 columns 1.

The rigid cylindrical shell 5 is made of metal.

As bulk filler 6 columns 1 use sand.

The inventive node is mounted as follows.

In the cavity of the cylindrical shell 5 of a pre-installed underlying column 1, a connecting element 3 is placed to ensure that its end is in tight contact with the bulk filler 6.

Next, on the side surface of the connecting element 3, the radial stiffeners 7 and the support plate 8 are fixed by welding.

In the case of a prefabricated floor slab 2, it is freely put on the connecting element 3 due to the through hole 4 and rested on the support plate 8. Next, the reinforcement 11 of the floor slab 2 is welded to the side surface of the connecting element 3 and the free space is filled with concrete.

In the case of a monolithic floor slab 2, formwork is arranged on the surface of the support plate 8 around the perimeter of the cylindrical shell 5, reinforcement 11 is installed, which is welded to the side surface of the connecting element 3 and the formwork cavity is filled with concrete.

Then, an overlying column 1 is mounted on the connecting element 3 and fixed with the help of anchor bolts 9.

The claimed invention is easy to install, allows to reduce the specific load on the columns, to expand the scope, as well as reduce material consumption.

Claims (6)

1. The node connecting the columns and floor slabs containing the underlying column, on which, using the connecting element, the floor slab and the overlying column are installed, the lower end of each of the columns being able to be fastened to the connecting element, and the upper end made with the possibility of installation on the connecting element, while the floor slab is provided with a through hole made with the possibility of freely putting on the connecting element, characterized in that the connecting element with holds two parts of a cylindrical shape, the upper of which has a diameter greater than the diameter of the lower part, made with the possibility of its entry into the cavity of the underlying column, while the columns contain a rigid cylindrical shell made with the possibility of uniform and dense filling with a loose filler of solid particles, such as sand to a level ensuring its tight contact with the end face of the connecting element placed in the cavity of the cylindrical shell, in addition, the upper part of the connecting element that is capable of bonding with overlay plate, which on the side surface connecting member rigidly secured radial ribs, the lower edges of which are rigidly attached to the base plate, the upper plane of which is arranged to support on its slab. 2. The node connecting the columns and floor slab according to claim 1, in which the connecting element is made in the form of a metal body, the inner cavity of which is filled with concrete. 3. The node connecting the columns and floor slabs according to claim 1, in which the upper part of the connecting element is made with the possibility of fastening with the lower end of the overlying column, for which the end surface of the upper part is made flat and provided with anchor bolts. 4. The node connecting the columns and floor slab according to claim 1, in which the lower part of the connecting element has a diameter that corresponds to the inner diameter of the cylindrical shell of the columns. 5. The node connecting the columns and floor slab according to claim 1, in which the lower end of each column is equipped with flange plates. 6. The node connecting the columns and floor slabs according to claim 1, in which the columns are fully operational.

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